15219( 8) - 18-Jun-2018 10:41:28 - [ 1] HUBBLE SPACE TELESCOPE OBSERVING PROGRAM 15219 Version: 8 Check-in Time: 18-Jun-2018 10:41:28 STScI Edit Number: 4 Title Super-Keplerian Motions in the AU Mic Circumstellar Debris System ------------------------------------------------------------------------------------ Type Cycle GO 25 ------------------------------------------------------------------------------------ Investigators Contact? PI: Dr. John P. Wisniewski University of Oklahoma Norman Campus Y CoI: Dr. Anthony Boccaletti Observatoire de Paris - Section de Meudon N CoI: Dr. Glenn Schneider University of Arizona N CoI: Dr. Andras Gaspar University of Arizona N CoI: Dr. John Henry Debes Space Telescope Science Institute N CoI: Dr. Dean C. Hines Space Telescope Science Institute N CoI: Dr. Christopher C. Stark Space Telescope Science Institute N CoI: Dr. Anne-Marie Lagrange Universite de Grenoble I N CoI: Dr. Christian Thalmann Eidgenossiche Technische Hochschule (ETH) N CoI: Dr. Jean-Charles Augereau Institut de Planetologie et N d'Astrophysique de Grenoble CoI: Mr. Julien Milli European Southern Observatory - Chile N CoI: Dr. Carol A. Grady Eureka Scientific Inc. N CoI: Prof. Thomas K. Henning Max-Planck-Institut fur Astronomie, N Heidelberg CoI: Mr. Elie Sezestre Institut de Planetologie et N d'Astrophysique de Grenoble CoI: Dr. Marc Jason Kuchner NASA Goddard Space Flight Center N ------------------------------------------------------------------------------------ Abstract We found enigmatic, few-au-scale features in spatially resolved near-IR scattered light observations of the AU Mic debris disk system obtained with VLT/SPHERE in 2014. We recovered these structures in re-analysis of HST/STIS imagery from 2010/2011, and discovered that they are moving away from the star at super-Keplerian speeds, possibly escaping the system. To-date, these are the only moving features seen in resolved imagery of debris disks. To help diagnose the origin of this phenomenon and in concert with multi-wavelength diagnostics being pursued with other facilities, we propose to use 12 orbits of HST/STIS to re-image the AU Mic scattered light disk from 0.2" (2 au) to 13" (130 au) ~8 years after the previous epoch of HST/STIS imagery. HST/STIS provides the only means to trace the motion of structures that have already moved outside the FOV of ground-based extreme-AO imagers, the best means to accurately diagnose the morphological and kinematic evolution of these moving features, and the best means to trace the evolution of small grains in the system. Our optical STIS coronagraphy observations are critically needed to establish the locations and shapes of the blobs, establish their optical fluxes at high photometric fidelity, and therefore enable (IR - optical) colors of disk features to be measured in JWST's cycle-1, using NIRCAM's and MIRI's coronagraphs. These data will constrain the grain size distribution, hence mass, of the moving features and by extension the magnitude of the force that is expelling the features, enabling us to test whether mechanisms like the stellar wind or coronal-mass ejections are responsible for the newly observed phenomenon. ------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 2] Observations Description ------------------------ OVERALL PROGRAM This program will obtain two sets of visits of observations of AU Mic. The first set of 5 visits utilize Wedge A0.6 and Wedge A1.0 observations. All visits during this set MUST be executed in contiguous orbits. The second set of 5 visits utilize BAR5 observations. All visits during this set MUST be executed in contiguous orbits. VISITS AND EXPOSURE DETAILS 1) WEDGE-A OBSERVATION SET Guide Star Acquisitions: We require pointing and roll control with 2-FGS guiding. Single-FGS guiding does not offer sufficient target position stability for coronagraphy. Each visit (after its Guide Star acquisition) begins with a mode-2 target acquisition, is followed by a sequence of repetitive "short" exposures (by CR-SPLIT or exposure replication) at the WedgeA0.6 position followed by a sequence of repetitive "long" exposures (also by CR-SPLIT or exposure replication) at the Wedge A1.0 position. 1) Target Acquisitions. We expose our TA images to a SNR > appx 100 using the STIS ETC. While robust target acquisition is enabled with SNR 40, we also use the TA images as a pre mode-2 astrometric anchor to assess the "behind the wedge" target position to high precision (separate from "diffraction spike" analysis, for which higher SNR for precision centroiding is required. We also use these F25ND3 filtered imagesto photometrically obtain target:PSF template brightness ratios in the broad STIS passband. The STIS Target Acquisition ETC was used to determine the eposure times for all acquisition images. 2) The "short" exposure times are designed to reach 90% of full-well depth, with the target coronagraphically occulted, at the edge of the wedge 0.3" from the star. We scale, using the ETC, this from observations predicated upon an A0 star with V = 3.55 reach 90% full well from the PSF halo in 1 second based upon preious STIS coronagraphic observations allowing for up to as much of 1/2 pixel of possible target decentering in acquisition performance. We generally repeat these exposures to fill appx 35% of the target visibility interval after subtracting the time required for the preceding guide star and target acquisitions. 3) Following the short exposures we execute a Type-2 slew (by a change in instrument aperture to Wedge1.0) for the "long" exposure imaging. Sub-Array Readouts. For most coronagraphic exposures we use subarray readouts (SIZEAXIS2) symmetrically centered on the target to fully read-out the region along the wedge (Axis2, image Y axis) to the edge of the FOV at the small end of the wedge taper, and symmetrically on the diametrically opposing side. For WedgeA1.0 the max SIZEAXIS2 (without displacing with an |unsupported| CENTERAXIS2) is 427 pixels. This implies that the A1.0 position is 10.82 from 15219( 8) - 18-Jun-2018 10:41:28 - [ 3] the edge of the FOV (whole sub-array centered on target symmetrically 21.65 along the wedge). For WedgeA0.6 is (without displacing with an |unsupported| CENTERAXIS2) is 137 pixels. This implies that the A0.6 position is 3.47 from the edge of the FOV (whole sub-array centered on target symmetrically 6.95 along the wedge). VISIT LINKAGES (RELATIVE ORIENTATION CONSTRAINTS AND INTERLEAVED PSF OBSERVATIONS) ============================================================ We place an absolute orient request on VISIT 3 that constrain the AU Mic disk to align perpendicular to the long axis of occulting Wedge A. We place relative orient constraints on VISIT 1 (-30 to -20 degrees from VISIT 3) and on VISIT 5 (20 to 30 degrees from VISIT 3). No relative orient constraints are placed on VISIT 2 or VISIT 4. We require all 5 visits within this observational be executed in contiguous orbits. 2) BAR5 OBSERVATION SET Guide Star Acquisitions: We require pointing and roll control with 2-FGS guiding. Single-FGS guiding does not offer sufficient target position stability for coronagraphy. Each visit (after its Guide Star acquisition) begins with a mode-2 target acquisition, is followed by a sequence of repetitive "short" exposures (by CR-SPLIT or exposure replication) at the nominal BAR5 position. To mitigate against target centering uncertainties behind BAR5, we also include one sequence of repetitive exposures with the target offset by 0.25 pixels ABOVE the nominal center of BAR5 and one sequence of repetitive exposures with the target offset by 0.25 pixels BELOW the nominal center of BAR5 (i.e. an effective dither about the center position of BAR5). We achieve this dither pattern by using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = + 0.0024921 arcsec and y = + 0.0122491 for the PLUSDITHER position, and x = - 0.0024921 arcsec and y = - 0.0122491 for the MINUSDITHER position). 1) Target Acquisitions. We expose our TA images to a SNR > appx 100 using the STIS ETC. While robust target acquisition is enabled with SNR 40, we also use the TA images as a pre mode-2 astrometric anchor to assess the "behind the wedge" target position to high precision (separate from "diffraction spike" analysis, for which higher SNR for precision centroiding is required. We also use these F25ND3 filtered imagesto photometrically obtain target:PSF template brightness ratios in the broad STIS passband. The STIS Target Acquisition ETC was used to determine the eposure times for all acquisition images. 15219( 8) - 18-Jun-2018 10:41:28 - [ 4] VISIT LINKAGES (RELATIVE ORIENTATION CONSTRAINTS AND INTERLEAVED PSF OBSERVATIONS) ============================================================ We place an absolute orient request on VISIT 23 that constrains the AU Mic disk to align perpendicular to the long axis of occulting BAR5. We place relative orient constraints on VISIT 23 (-30 to -20 degrees from VISIT 23) and on VISIT 25 (20 to 30 degrees from VISIT 3). No relative orient constraints are placed on VISIT 21 or VISIT 24. We require all 5 visits within this observational be executed in contiguous orbits. -------- Realtime Justification -------- We have no real-time requirments. ------ Calibration Justification ------- We ask for no SPECIAL calibrations for this proposal (and called none out in Phase 1). We did not because we ASSUME that STScI will acquire GAIN=4 (supported mode) bias, DARK, and flat-field frames (and derived hot/bad pixel maps) as part of their Cycle 25 calibration plan in support of approved Cycle 25 science programs. If this is NOT the case then we must obtain GAIN=4 calibration reference bias/dark data as part of our program using NON-POINTED (internal) orbits only. If STScI does not include acquiring for broader purposes the reference data we need, then we will need to add those internal calibrations to this program AFTER the Phase 2 deadline. ------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 5] TARGET LIST Fixed Targets ------------------------------------------------------------------------------------------------------------------------------------ Tar| Target | Target | Target |Coord | Radial | Flux data No | Name | Description | Position |Eqnx | Vel. | ------------------------------------------------------------------------------------------------------------------------------------ 1 V-AU-MIC STAR, M V-IV RA=20H45M9.5315S +/- 0.1", J2000 V = 8.627 B-V = +1.45 DEC=-31D20'27.24" +/- 0.1" Reference Frame: ICRS Comments: This object was generated by the targetselector and retrieved from the SIMBAD database. Spec M1V Epoch of Position RA proper motion (seconds of time/yr) DEC Proper Motion (arcsec/yr) Annual Parallax (arcsec) 2000 0.021884558271533634 -0.36008999999999997 0.10059 ------------------------------------------------------------------------------------------------------------------------------------ 2 PSFSTAR1-HD- STAR, M V-IV RA=20H13M53.3976S +/- 0.1", J2000 V = 7.966 B-V = +1.46 191849 DEC=-45D09'50.47" +/- 0.1" Reference Frame: ICRS Comments: This object was generated by the targetselector and retrieved from the SIMBAD database. Spec M0V USNO-2: R=15.1 @ r = 0.39'; 6 stars R=15.1-17.9 @ 0.39' < r < 0.92' HST/ACS-coron perigree: Graham et al 2007 HST/NICMOS 7240 Verified Suitable from HST Images Used as AU Mic PSF reference sta in GO-12228 Epoch of Position RA proper motion (seconds of time/yr) DEC Proper Motion (arcsec/yr) Annual Parallax (arcsec) 2000 0.07358601085164772 -0.15954 0.16118 ------------------------------------------------------------------------------------------------------------------------------------ 3 PSFSTAR2-HD- STAR, M V-IV RA=20H54M35.9293S +/- 0.1", J2000 V = 7.66 B-V=1.42, 3.98 degrees from AU 198939 DEC=-27D55'49.82" +/- 0.1" Mic; second PSF star Reference Frame: ICRS Comments: This object was generated by the targetselector and retrieved from the SIMBAD database. Epoch of Position RA proper motion (seconds of time/yr) DEC Proper Motion (arcsec/yr) Annual Parallax (arcsec) 2000 8.881178601947886E-4 0.00557 0.00115 ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 6] Visit: 01 Visit Requirements: PCS MODE FINE; GUID TOL 0.005"; GYRO MODE 3GOBAD; ORIENT -30D TO -20D FROM 03 On Hold Comments: Additional Comments: AU MIC (V=8.61, B-V = + 1.45). First of two sets of visits, each containing three visits of AU MIC at different relative orientations with two PSF calibration observations interleaved. This set of visits uses WedgeA. This is the first AU MIC visit in the first set. The five visits within each set MUST be executed sequentally in contiguous orbits interrupted only for Earth occultation. Orientation: We have set the allowable orientation to range from -30 deg to -20 degrees from Visit 3, to allow a sufficiently large scheduling window. NOTE TO PC: Our science is optimized if we can achieve an orient as close as possible to -30 degrees from the preferred absolute orient of 83.7 degrees in Visit 3. We ask that you please try to identify scheduling windows that enable us to get as close as possible to this orientation. IF the absolute orient of Visit 3 deviates from 83.7 degrees, PLEASE ask us for guidance as to the orientation range we prefer for Visit 1. We absolutely do NOT want the disk major axis (128.7 degrees) to align with the STIS diffration spikes in Visits 1, 3, or 5. Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 1 V-AU-MIC STIS/CCD ACQ F25ND3 MIRROR 1 0.40 S GS ACQ SCENARIO BASE1B3; (0.4 S) SEQ 1-4 NON-INT Comments: SNR = 100, V = 8.61, sp = M1Ve, Exptime rounded to nearest 0.1 second ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 7] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 2 V-AU-MIC STIS/CCD ACCUM WEDGEA0.6 MIRROR SIZEAXIS2=137, CR-SPLIT=8, 1 364 S (364 GAIN=4 S) Comments: SCALABLE BENCHMARK: We expect full-well at r=0.3" from wings of stellar PSF in 1 second for V=3.55. AU MIC is V = 8.61 so saturation in 50.6s. So 90% full well in appx 45.5s. Use this for the "short" exposures, repeated (8x) with multiple CR Splits. This setup for the "short" exposures replicates the setup used for GO-12228 for this target and WEDGE observations. SCALABLE PARAMETER FOR SUB-ARRAY Readout: SIZEAXIS2 = 20 is 1" in full extent (r = 0.5") For these "short" exposures we will image perpendicular to the wedge (symmetrically) centered on the target to the maximum extent permitted by the limits of the FOV (edge of the detector) on the "small" side of the Wedge A taper. Thus, for these short exposures we use SIZEAXIS12 = 137, appropriate for the WedgeA0.6 position. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 8] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 3 V-AU-MIC STIS/CCD ACCUM WEDGEA0.6 MIRROR SIZEAXIS2=137, CR-SPLIT=4, 1 182 S (182 GAIN=4 S) Comments: SCALABLE BENCHMARK: We expect full-well at r=0.3" from wings of stellar PSF in 1 second for V=3.55. AU MIC is V = 8.61 so saturation in 50.6s. So 90% full well in appx 45.5s. Use this for the "short" exposures, repeated with multiple CR Splits. This setup for the "short" exposures replicates the setup used for GO-12228 for this target and WEDGE observations. SCALABLE PARAMETER FOR SUB-ARRAY Readout: SIZEAXIS2 = 20 is 1" in full extent (r = 0.5") For these "short" exposures we will image perpendicular to the wedge (symmetrically) centered on the target to the maximum extent permitted by the limits of the FOV (edge of the detector) on the "small" side of the Wedge A taper. Thus, for these short exposures we use SIZEAXIS12 = 137, appropriate for the WedgeA0.6 position. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 9] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 4 V-AU-MIC STIS/CCD ACCUM WEDGEA1.0 MIRROR SIZEAXIS2=427, CR-SPLIT=3, 1 1592 S GAIN=4 (1592 S) Comments: SCALABLE BENCHMARK: We expect full-well at r=0.3" from wings of stellar PSF in 1 second for V=3.55. AU MIC is V = 8.61 so saturation in 50.6s. So 90% full well in appx 45.5s. For long exposures at WedgeA1.0 go > 10x deeper in each that will fit into remainer ofvisibility period CR-SPLIT at least 3 times - and trim exposure time to fit in visibility window. This setup for the "long" exposures replicates the setup used for GO-12228 for this target and WEDGE observations. SCALABLE PARAMETER FOR SUB-ARRAY Readout: SIZEAXIS2 = 20 is 1" in full extent (r = 0.5") For these "long" exposures we will image perpendicular to the wedge (symmetrically) centered on the target to the maximum extent permitted by the limits of the FOV (edge of the detector) on the "small" side of the Wedge A taper. Thus, for these short exposures we use SIZEAXIS12 = 427, appropriate for the WedgeA1.0 position. ------------------------------------------------------------------------------------------------------------------------------------ Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ V-AU-MIC 1 STIS/CCD ACQ F25ND3 MIRROR none none none none 1 N/A V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 1 1 N/A 6 V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 2 1 N/A 6 V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 3 1 N/A 6 V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 4 1 N/A 6 V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 5 1 N/A 6 V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 6 1 N/A 6 15219( 8) - 18-Jun-2018 10:41:28 - [ 10] Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 7 1 N/A 6 V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 8 1 N/A 6 V-AU-MIC 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 1 1 N/A 6 V-AU-MIC 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 2 1 N/A 6 V-AU-MIC 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 3 1 N/A 6 V-AU-MIC 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 4 1 N/A 6 V-AU-MIC 4 STIS/CCD ACCUM WEDGEA1. MIRROR none none none 1 1 N/A 0 V-AU-MIC 4 STIS/CCD ACCUM WEDGEA1. MIRROR none none none 2 1 N/A 0 V-AU-MIC 4 STIS/CCD ACCUM WEDGEA1. MIRROR none none none 3 1 N/A 0 15219( 8) - 18-Jun-2018 10:41:28 - [ 11] Visit: 02 Visit Requirements: PCS MODE FINE; GUID TOL 0.005"; GYRO MODE 3GOBAD; AFTER 01 BY 0.5 Orbits TO 1.2 Orbits On Hold Comments: Additional Comments: PSF02 (HD1989399). Second PSF calibration target for AU MIC. First of two sets of visits, each containing three visits of AU MIC at different relative orientations with two PSF calibration observations interleaved. This set of visits uses WedgeA. The five visits within each set MUST be executed sequentally in contiguous orbits interrupted only for Earth occultation. Orientation: NOTE TO OUR PC: Our PSF star visits (#2 and #4) have no absolute or relative orientation constraints. However, all other things being equal, when scheduled, we would request that both be observed with roll angles as close to Visit 3 as possible. This is not a hard requirement and we do not constrain, but a request this if possible to optimize the science return through likely better PSF calibration. Relative Timing: This visit (2) MUST immediately follow visit 1. I.e., They MUST be executed sequentially in "back-to-back" orbits. Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 1 PSFSTAR2-HD STIS/CCD ACQ F25ND3 MIRROR 1 0.25 S GS ACQ SCENARIO BASE1B3; -198939 (0.25 S) SEQ 1-4 NON-INT Comments: SNR = 100, V = 7.66, sp = M0V, Exptime from STIS ETC ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 12] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 2 PSFSTAR2-HD STIS/CCD ACCUM WEDGEA0.6 MIRROR SIZEAXIS2=137, CR-SPLIT=8, 1 166 S (166 -198939 GAIN=4 S) Comments: SCALABLE BENCHMARK: We expect full-well at r=0.3" from wings of stellar PSF in 1 second for V=3.55. Since HD198939 exhibits 32% less flux than our other PSF star (HD 191849, also observed in GO-12228), we scale our exposure times for HD 198939 to be 32% less than HD191849. SCALABLE PARAMETER FOR SUB-ARRAY Readout: SIZEAXIS2 = 20 is 1" in full extent (r = 0.5") For these "short" exposures we will image perpendicular to the wedge (symmetrically) centered on the target to the maximum extent permitted by the limits of the FOV (edge of the detector) on the "small" side of the Wedge A taper. Thus, for these short exposures we use SIZEAXIS12 = 137, appropriate for the WedgeA0.6 position. ------------------------------------------------------------------------------------------------------------------------------------ 3 PSFSTAR2-HD STIS/CCD ACCUM WEDGEA0.6 MIRROR SIZEAXIS2=137, CR-SPLIT=8, 1 166 S (166 -198939 GAIN=4 S) Comments: SCALABLE BENCHMARK: We expect full-well at r=0.3" from wings of stellar PSF in 1 second for V=3.55. Since HD198939 exhibits 32% less flux than our other PSF star (HD 191849, also observed in GO-12228), we scale our exposure times for HD 198939 to be 32% less than HD191849. SCALABLE PARAMETER FOR SUB-ARRAY Readout: SIZEAXIS2 = 20 is 1" in full extent (r = 0.5") For these "short" exposures we will image perpendicular to the wedge (symmetrically) centered on the target to the maximum extent permitted by the limits of the FOV (edge of the detector) on the "small" side of the Wedge A taper. Thus, for these short exposures we use SIZEAXIS12 = 137, appropriate for the WedgeA0.6 position. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 13] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 4 PSFSTAR2-HD STIS/CCD ACCUM WEDGEA1.0 MIRROR SIZEAXIS2=427, CR-SPLIT=4, 1 1508 S -198939 GAIN=4 (1508 S) Comments: V = 6.26 so saturation in 12.1s. So 90% full well in appx 10.9s. Use this for the "short" exposures, repeated (8x) with multiple CR Splits. For long exposures at WedgeA1.0 go <=20x deeper in each that will fit into remainer of visibility period CR-SPLIT at least 3 times - and trim exposure time to fit in visibility window. Since HD198939 exhibits 32% less flux than our other PSF star (HD 191849, also observed in GO-12228), we scale our exposure times for HD 198939 to be 32% less than HD191849. SCALABLE PARAMETER FOR SUB-ARRAY Readout: SIZEAXIS2 = 20 is 1" in full extent (r = 0.5") For these "long" exposures we will image perpendicular to the wedge (symmetrically) centered on the target to the maximum extent permitted by the limits of the FOV (edge of the detector) on the "small" side of the Wedge A taper. Thus, for these short exposures we use SIZEAXIS12 = 427, appropriate for the WedgeA1.0 position. ------------------------------------------------------------------------------------------------------------------------------------ Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ PSFSTAR2-HD-198939 1 STIS/CCD ACQ F25ND3 MIRROR none none none none 1 N/A PSFSTAR2-HD-198939 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 1 1 N/A 6 PSFSTAR2-HD-198939 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 2 1 N/A 6 PSFSTAR2-HD-198939 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 3 1 N/A 6 PSFSTAR2-HD-198939 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 4 1 N/A 6 PSFSTAR2-HD-198939 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 5 1 N/A 6 15219( 8) - 18-Jun-2018 10:41:28 - [ 14] Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ PSFSTAR2-HD-198939 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 6 1 N/A 6 PSFSTAR2-HD-198939 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 7 1 N/A 6 PSFSTAR2-HD-198939 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 8 1 N/A 6 PSFSTAR2-HD-198939 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 1 1 N/A 6 PSFSTAR2-HD-198939 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 2 1 N/A 6 PSFSTAR2-HD-198939 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 3 1 N/A 6 PSFSTAR2-HD-198939 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 4 1 N/A 6 PSFSTAR2-HD-198939 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 5 1 N/A 6 PSFSTAR2-HD-198939 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 6 1 N/A 6 PSFSTAR2-HD-198939 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 7 1 N/A 6 PSFSTAR2-HD-198939 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 8 1 N/A 6 PSFSTAR2-HD-198939 4 STIS/CCD ACCUM WEDGEA1. MIRROR none none none 1 1 N/A 0 PSFSTAR2-HD-198939 4 STIS/CCD ACCUM WEDGEA1. MIRROR none none none 2 1 N/A 0 PSFSTAR2-HD-198939 4 STIS/CCD ACCUM WEDGEA1. MIRROR none none none 3 1 N/A 0 PSFSTAR2-HD-198939 4 STIS/CCD ACCUM WEDGEA1. MIRROR none none none 4 1 N/A 0 15219( 8) - 18-Jun-2018 10:41:28 - [ 15] Visit: 03 Visit Requirements: PCS MODE FINE; GUID TOL 0.005"; GYRO MODE 3GOBAD; ORIENT 73.7D TO 93.7 D; AFTER 02 BY 0.5 Orbits TO 1.2 Orbits On Hold Comments: Additional Comments: AU MIC (V=8.61, B-V = + 1.45). First of two sets of visits, each containing three visits of AU MIC at different relative orientations with two PSF calibration observations interleaved. This set of visits uses WedgeA. This is the second AU MIC visit in the first set. The five visits within each set MUST be executed sequentally in contiguous orbits interrupted only for Earth occultation. Orientation: We have set the allowable absolute orientation to range from 73.7 deg to 93.7 degrees, to allow a sufficiently large scheduling window. NOTE TO PC: AU Mic's disk has a PA of 128.7 degrees. Our science is optimized if we can achieve an absolute orient that places the major axis of AU Mic's disk perpendicular to the long axis of WEDGEA. We need our absolute orient to be as close as possible to (128.7 degrees + 315 degrees = 83.7 degrees; or equivalently ok 128.7 degrees + 135 degrees = 263.7 degrees). We ask that you please try to identify scheduling windows that enable us to get as close as possible to either of these absolute orientations. These orientiations place the circumstellar disk axis perpendicular to the long-axis of WEDGEA. We have allowed a +/-10 degree window about this strong preference to aid scheduled and GS acquisition. Relative Timing: This visit (3) MUST immediately follow Visit 2 and immediately preceed Visit 4 in back-to-back orbits. Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 1 V-AU-MIC STIS/CCD ACQ F25ND3 MIRROR 1 0.4 S (0.4 GS ACQ SCENARIO BASE1B3; S) SEQ 1-4 NON-INT Comments: SNR = 100, V = 8.61, sp = M1Ve, Exptime rounded to nearest 0.1 second ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 16] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 2 V-AU-MIC STIS/CCD ACCUM WEDGEA0.6 MIRROR SIZEAXIS2=137, CR-SPLIT=8, 1 364 S (364 GAIN=4 S) Comments: SCALABLE BENCHMARK: We expect full-well at r=0.3" from wings of stellar PSF in 1 second for V=3.55. AU MIC is V = 8.61 so saturation in 50.6s. So 90% full well in appx 45.5s. Use this for the "short" exposures, repeated (8x) with multiple CR Splits. This setup for the "short" exposures replicates the setup used for GO-12228 for this target and WEDGE observations. SCALABLE PARAMETER FOR SUB-ARRAY Readout: SIZEAXIS2 = 20 is 1" in full extent (r = 0.5") For these "short" exposures we will image perpendicular to the wedge (symmetrically) centered on the target to the maximum extent permitted by the limits of the FOV (edge of the detector) on the "small" side of the Wedge A taper. Thus, for these short exposures we use SIZEAXIS12 = 137, appropriate for the WedgeA0.6 position. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 17] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 3 V-AU-MIC STIS/CCD ACCUM WEDGEA0.6 MIRROR SIZEAXIS2=137, CR-SPLIT=4, 1 182 S (182 GAIN=4 S) Comments: SCALABLE BENCHMARK: We expect full-well at r=0.3" from wings of stellar PSF in 1 second for V=3.55. AU MIC is V = 8.61 so saturation in 50.6s. So 90% full well in appx 45.5s. Use this for the "short" exposures, repeated with multiple CR Splits. This setup for the "short" exposures replicates the setup used for GO-12228 for this target and WEDGE observations. SCALABLE PARAMETER FOR SUB-ARRAY Readout: SIZEAXIS2 = 20 is 1" in full extent (r = 0.5") For these "short" exposures we will image perpendicular to the wedge (symmetrically) centered on the target to the maximum extent permitted by the limits of the FOV (edge of the detector) on the "small" side of the Wedge A taper. Thus, for these short exposures we use SIZEAXIS12 = 137, appropriate for the WedgeA0.6 position. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 18] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 4 V-AU-MIC STIS/CCD ACCUM WEDGEA1.0 MIRROR SIZEAXIS2=427, CR-SPLIT=3, 1 1592 S GAIN=4 (1592 S) Comments: SCALABLE BENCHMARK: We expect full-well at r=0.3" from wings of stellar PSF in 1 second for V=3.55. AU MIC is V = 8.61 so saturation in 50.6s. So 90% full well in appx 45.5s. For long exposures at WedgeA1.0 go > 10x deeper in each that will fit into remainer of visibility period CR-SPLIT at least 3 times - and trim exposure time to fit in visibility window. This setup for the "long" exposures replicates the setup used for GO-12228 for this target and WEDGE observations. SCALABLE PARAMETER FOR SUB-ARRAY Readout: SIZEAXIS2 = 20 is 1" in full extent (r = 0.5") For these "long" exposures we will image perpendicular to the wedge (symmetrically) centered on the target to the maximum extent permitted by the limits of the FOV (edge of the detector) on the "small" side of the Wedge A taper. Thus, for these short exposures we use SIZEAXIS12 = 427, appropriate for the WedgeA1.0 position. ------------------------------------------------------------------------------------------------------------------------------------ Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ V-AU-MIC 1 STIS/CCD ACQ F25ND3 MIRROR none none none none 1 N/A V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 1 1 N/A 6 V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 2 1 N/A 6 V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 3 1 N/A 6 V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 4 1 N/A 6 V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 5 1 N/A 6 V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 6 1 N/A 6 15219( 8) - 18-Jun-2018 10:41:28 - [ 19] Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 7 1 N/A 6 V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 8 1 N/A 6 V-AU-MIC 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 1 1 N/A 6 V-AU-MIC 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 2 1 N/A 6 V-AU-MIC 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 3 1 N/A 6 V-AU-MIC 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 4 1 N/A 6 V-AU-MIC 4 STIS/CCD ACCUM WEDGEA1. MIRROR none none none 1 1 N/A 0 V-AU-MIC 4 STIS/CCD ACCUM WEDGEA1. MIRROR none none none 2 1 N/A 0 V-AU-MIC 4 STIS/CCD ACCUM WEDGEA1. MIRROR none none none 3 1 N/A 0 15219( 8) - 18-Jun-2018 10:41:28 - [ 20] Visit: 04 Visit Requirements: PCS MODE FINE; GUID TOL 0.005"; GYRO MODE 3GOBAD; AFTER 03 BY 0.5 Orbits TO 1.2 Orbits On Hold Comments: Additional Comments: PSF1 (HD191849). PSF calibration target for AU MIC. V = 7.97. B-V = +1.46. First of two sets of visits, each containing three visits of AU MIC at different relative orientations with two PSF calibration observations interleaved. This set of visits uses WedgeA. The five visits within each set MUST be executed sequentally in contiguous orbits interrupted only for Earth occultation. Orientation: NOTE TO OUR PC: Our PSF star visits (#2 and #4) have no absolute or relative orientation constraints. However, all other things being equal, when scheduled, we would request that both be observed with roll angles as close to Visit 3 as possible. This is not a hard requirement and we do not constrain, but a request this if possible to optimize the science return through likely better PSF calibration. Relative Timing: This visit (4) MUST immediately follow visit 3 and immediately precede visit 5. I.e., They should be executed sequentially in "back-to-back" orbits. Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 1 PSFSTAR1-HD STIS/CCD ACQ F25ND3 MIRROR 1 0.3 S (0.3 GS ACQ SCENARIO BASE1B3; -191849 S) SEQ 1-4 NON-INT Comments: SNR = 100, V = 7.97, sp = M0Ve, Exptime rounded to nearest 0.1 second ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 21] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 2 PSFSTAR1-HD STIS/CCD ACCUM WEDGEA0.6 MIRROR SIZEAXIS2=137, CR-SPLIT=8, 1 244.8 S -191849 GAIN=4 (244.8 S) Comments: SCALABLE BENCHMARK: We expect full-well at r=0.3" from wings of stellar PSF in 1 second for V=3.55. V = 7.97 so saturation in 34.0s. So 90% full well in appx 30.6s. Use this for the "short" exposures, repeated (8x) with multiple CR Splits. This setup for the "short" exposures replicates the setup used for GO-12228 for this target and WEDGE observations. SCALABLE PARAMETER FOR SUB-ARRAY Readout: SIZEAXIS2 = 20 is 1" in full extent (r = 0.5") For these "short" exposures we will image perpendicular to the wedge (symmetrically) centered on the target to the maximum extent permitted by the limits of the FOV (edge of the detector) on the "small" side of the Wedge A taper. Thus, for these short exposures we use SIZEAXIS12 = 137, appropriate for the WedgeA0.6 position. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 22] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 3 PSFSTAR1-HD STIS/CCD ACCUM WEDGEA0.6 MIRROR SIZEAXIS2=137, CR-SPLIT=8, 1 244.8 S -191849 GAIN=4 (244.8 S) Comments: SCALABLE BENCHMARK: We expect full-well at r=0.3" from wings of stellar PSF in 1 second for V=3.55. V = 7.97 so saturation in 34.0s. So 90% full well in appx 30.6s. Use this for the "short" exposures, repeated (8x) with multiple CR Splits. This setup for the "short" exposures replicates the setup used for GO-12228 for this target and WEDGE observations. SCALABLE PARAMETER FOR SUB-ARRAY Readout: SIZEAXIS2 = 20 is 1" in full extent (r = 0.5") For these "short" exposures we will image perpendicular to the wedge (symmetrically) centered on the target to the maximum extent permitted by the limits of the FOV (edge of the detector) on the "small" side of the Wedge A taper. Thus, for these short exposures we use SIZEAXIS12 = 137, appropriate for the WedgeA0.6 position. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 23] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 4 PSFSTAR1-HD STIS/CCD ACCUM WEDGEA1.0 MIRROR SIZEAXIS2=427, CR-SPLIT=3, 1 1666 S -191849 GAIN=4 (1666 S) Comments: V = 6.26 so saturation in 12.1s. So 90% full well in appx 10.9s. Use this for the "short" exposures, repeated (8x) with multiple CR Splits. For long exposures at WedgeA1.0 go <=20x deeper in each that will fit into remainer of visibility period CR-SPLIT at least 3 times - and trim exposure time to fit in visibility window. This setup for the "long" exposures replicates the setup used for GO-12228 for this target and WEDGE observations. SCALABLE PARAMETER FOR SUB-ARRAY Readout: SIZEAXIS2 = 20 is 1" in full extent (r = 0.5") For these "long" exposures we will image perpendicular to the wedge (symmetrically) centered on the target to the maximum extent permitted by the limits of the FOV (edge of the detector) on the "small" side of the Wedge A taper. Thus, for these short exposures we use SIZEAXIS12 = 427, appropriate for the WedgeA1.0 position. ------------------------------------------------------------------------------------------------------------------------------------ Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ PSFSTAR1-HD-191849 1 STIS/CCD ACQ F25ND3 MIRROR none none none none 1 N/A PSFSTAR1-HD-191849 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 1 1 N/A 6 PSFSTAR1-HD-191849 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 2 1 N/A 6 PSFSTAR1-HD-191849 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 3 1 N/A 6 PSFSTAR1-HD-191849 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 4 1 N/A 6 PSFSTAR1-HD-191849 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 5 1 N/A 6 PSFSTAR1-HD-191849 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 6 1 N/A 6 15219( 8) - 18-Jun-2018 10:41:28 - [ 24] Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ PSFSTAR1-HD-191849 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 7 1 N/A 6 PSFSTAR1-HD-191849 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 8 1 N/A 6 PSFSTAR1-HD-191849 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 1 1 N/A 6 PSFSTAR1-HD-191849 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 2 1 N/A 6 PSFSTAR1-HD-191849 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 3 1 N/A 6 PSFSTAR1-HD-191849 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 4 1 N/A 6 PSFSTAR1-HD-191849 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 5 1 N/A 6 PSFSTAR1-HD-191849 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 6 1 N/A 6 PSFSTAR1-HD-191849 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 7 1 N/A 6 PSFSTAR1-HD-191849 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 8 1 N/A 6 PSFSTAR1-HD-191849 4 STIS/CCD ACCUM WEDGEA1. MIRROR none none none 1 1 N/A 0 PSFSTAR1-HD-191849 4 STIS/CCD ACCUM WEDGEA1. MIRROR none none none 2 1 N/A 0 PSFSTAR1-HD-191849 4 STIS/CCD ACCUM WEDGEA1. MIRROR none none none 3 1 N/A 0 15219( 8) - 18-Jun-2018 10:41:28 - [ 25] Visit: 05 Visit Requirements: PCS MODE FINE; GUID TOL 0.005"; GYRO MODE 3GOBAD; ORIENT 20D TO 30D FROM 03; AFTER 04 BY 0.5 Orbits TO 1.2 Orbits On Hold Comments: Additional Comments: AU MIC (V=8.61, B-V = + 1.45). First of two sets of visits, each containing three visits of AU MIC at different relative orientations with two PSF calibration observations interleaved. This set of visits uses WedgeA. This is the third AU MIC visit in the first set. The five visits within each set MUST be executed sequentally in contiguous orbits interrupted only for Earth occultation. Orientation: We have set the allowable orientation to range from 20 deg to 30 degrees from Visit 3, to allow a sufficiently large scheduling window. NOTE TO PC: Our science is optimized if we can achieve an orient as close as possible to +30 degrees from the preferred absolute orient of 83.7 degrees in Visit 3. We ask that you please try to identify scheduling windows that enable us to get as close as possible to this orientation. IF the absolute orient of Visit 3 deviates from 83.7 degrees, PLEASE ask us for guidance as to the orientation range we prefer for Visit 5. We absolutely do NOT want the disk major axis (128.7 degrees) to align with the STIS diffration spikes in Visits 1, 3, or 5. Relative Timing: This visit (5) MUST immediately follow Visit 4. I.e., They should be executed sequentially in "back-to-back" orbits. Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 1 V-AU-MIC STIS/CCD ACQ F25ND3 MIRROR 1 0.4 S (0.4 GS ACQ SCENARIO BASE1B3; S) SEQ 1-4 NON-INT Comments: SNR = 100, V = 8.61, sp = M1Ve, Exptime rounded to nearest 0.1 second ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 26] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 2 V-AU-MIC STIS/CCD ACCUM WEDGEA0.6 MIRROR SIZEAXIS2=137, CR-SPLIT=8, 1 364 S (364 GAIN=4 S) Comments: SCALABLE BENCHMARK: We expect full-well at r=0.3" from wings of stellar PSF in 1 second for V=3.55. AU MIC is V = 8.61 so saturation in 50.6s. So 90% full well in appx 45.5s. Use this for the "short" exposures, repeated (8x) with multiple CR Splits. This setup for the "short" exposures replicates the setup used for GO-12228 for this target and WEDGE observations. SCALABLE PARAMETER FOR SUB-ARRAY Readout: SIZEAXIS2 = 20 is 1" in full extent (r = 0.5") For these "short" exposures we will image perpendicular to the wedge (symmetrically) centered on the target to the maximum extent permitted by the limits of the FOV (edge of the detector) on the "small" side of the Wedge A taper. Thus, for these short exposures we use SIZEAXIS12 = 137, appropriate for the WedgeA0.6 position. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 27] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 3 V-AU-MIC STIS/CCD ACCUM WEDGEA0.6 MIRROR SIZEAXIS2=137, CR-SPLIT=4, 1 182 S (182 GAIN=4 S) Comments: SCALABLE BENCHMARK: We expect full-well at r=0.3" from wings of stellar PSF in 1 second for V=3.55. AU MIC is V = 8.61 so saturation in 50.6s. So 90% full well in appx 45.5s. Use this for the "short" exposures, repeated with multiple CR Splits. This setup for the "short" exposures replicates the setup used for GO-12228 for this target and WEDGE observations. SCALABLE PARAMETER FOR SUB-ARRAY Readout: SIZEAXIS2 = 20 is 1" in full extent (r = 0.5") For these "short" exposures we will image perpendicular to the wedge (symmetrically) centered on the target to the maximum extent permitted by the limits of the FOV (edge of the detector) on the "small" side of the Wedge A taper. Thus, for these short exposures we use SIZEAXIS12 = 137, appropriate for the WedgeA0.6 position. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 28] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 4 V-AU-MIC STIS/CCD ACCUM WEDGEA1.0 MIRROR SIZEAXIS2=427, CR-SPLIT=3, 1 1592 S GAIN=4 (1592 S) Comments: SCALABLE BENCHMARK: We expect full-well at r=0.3" from wings of stellar PSF in 1 second for V=3.55. AU MIC is V = 8.61 so saturation in 50.6s. So 90% full well in appx 45.5s. For long exposures at WedgeA1.0 go > 10x deeper in each that will fit into remainer of visibility period CR-SPLIT at least 3 times - and trim exposure time to fit in visibility window. This setup for the "long" exposures replicates the setup used for GO-12228 for this target and WEDGE observations. SCALABLE PARAMETER FOR SUB-ARRAY Readout: SIZEAXIS2 = 20 is 1" in full extent (r = 0.5") For these "long" exposures we will image perpendicular to the wedge (symmetrically) centered on the target to the maximum extent permitted by the limits of the FOV (edge of the detector) on the "small" side of the Wedge A taper. Thus, for these short exposures we use SIZEAXIS12 = 427, appropriate for the WedgeA1.0 position. ------------------------------------------------------------------------------------------------------------------------------------ Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ V-AU-MIC 1 STIS/CCD ACQ F25ND3 MIRROR none none none none 1 N/A V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 1 1 N/A 6 V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 2 1 N/A 6 V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 3 1 N/A 6 V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 4 1 N/A 6 V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 5 1 N/A 6 V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 6 1 N/A 6 15219( 8) - 18-Jun-2018 10:41:28 - [ 29] Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 7 1 N/A 6 V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 8 1 N/A 6 V-AU-MIC 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 1 1 N/A 6 V-AU-MIC 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 2 1 N/A 6 V-AU-MIC 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 3 1 N/A 6 V-AU-MIC 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 4 1 N/A 6 V-AU-MIC 4 STIS/CCD ACCUM WEDGEA1. MIRROR none none none 1 1 N/A 0 V-AU-MIC 4 STIS/CCD ACCUM WEDGEA1. MIRROR none none none 2 1 N/A 0 V-AU-MIC 4 STIS/CCD ACCUM WEDGEA1. MIRROR none none none 3 1 N/A 0 15219( 8) - 18-Jun-2018 10:41:28 - [ 30] Visit: 11 Visit Requirements: PCS MODE FINE; GUID TOL 0.005"; GYRO MODE 3GOBAD; ORIENT 353.7D TO 353.7 D; ORIENT 173.7D TO 173.7 D On Hold Comments: Additional Comments: AU MIC (V=8.61, B-V = + 1.45). This visit uses WedgeA. Orientation: To achive optical chromatic calibration, this visit places the circumstellar disk of AU Mic along the long-axis of WEDGEA. The PA of AU Mic's disk is 128.7 degrees. This visit thus MUST have EITHER the abolute orientation of 353.7 degrees or 173.7 degrees. Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 1 V-AU-MIC STIS/CCD ACQ F25ND3 MIRROR 1 0.40 S GS ACQ SCENARIO BASE1B3; (0.4 S) SEQ 1-4 NON-INT Comments: SNR = 100, V = 8.61, sp = M1Ve, Exptime rounded to nearest 0.1 second ------------------------------------------------------------------------------------------------------------------------------------ 2 V-AU-MIC STIS/CCD ACCUM WEDGEA0.6 MIRROR SIZEAXIS2=137, CR-SPLIT=8, 1 364 S (364 GAIN=4 S) Comments: SCALABLE BENCHMARK: We expect full-well at r=0.3" from wings of stellar PSF in 1 second for V=3.55. AU MIC is V = 8.61 so saturation in 50.6s. So 90% full well in appx 45.5s. Use this for the "short" exposures, repeated (8x) with multiple CR Splits. This setup for the "short" exposures replicates the setup used for GO-12228 for this target and WEDGE observations. SCALABLE PARAMETER FOR SUB-ARRAY Readout: SIZEAXIS2 = 20 is 1" in full extent (r = 0.5") For these "short" exposures we will image perpendicular to the wedge (symmetrically) centered on the target to the maximum extent permitted by the limits of the FOV (edge of the detector) on the "small" side of the Wedge A taper. Thus, for these short exposures we use SIZEAXIS12 = 137, appropriate for the WedgeA0.6 position. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 31] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 3 V-AU-MIC STIS/CCD ACCUM WEDGEA0.6 MIRROR SIZEAXIS2=137, CR-SPLIT=8, 1 182 S (182 GAIN=4 S) Comments: SCALABLE BENCHMARK: We expect full-well at r=0.3" from wings of stellar PSF in 1 second for V=3.55. AU MIC is V = 8.61 so saturation in 50.6s. So 90% full well in appx 45.5s. Use this for the "short" exposures, repeated (8x) with multiple CR Splits. This setup for the "short" exposures replicates the setup used for GO-12228 for this target and WEDGE observations. SCALABLE PARAMETER FOR SUB-ARRAY Readout: SIZEAXIS2 = 20 is 1" in full extent (r = 0.5") For these "short" exposures we will image perpendicular to the wedge (symmetrically) centered on the target to the maximum extent permitted by the limits of the FOV (edge of the detector) on the "small" side of the Wedge A taper. Thus, for these short exposures we use SIZEAXIS12 = 137, appropriate for the WedgeA0.6 position. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 32] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 4 V-AU-MIC STIS/CCD ACCUM WEDGEA1.0 MIRROR SIZEAXIS2=427, CR-SPLIT=3, 1 1500 S GAIN=4 (1500 S) Comments: SCALABLE BENCHMARK: We expect full-well at r=0.3" from wings of stellar PSF in 1 second for V=3.55. AU MIC is V = 8.61 so saturation in 50.6s. So 90% full well in appx 45.5s. For long exposures at WedgeA1.0 go > 10x deeper in each that will fit into remainer of visibility period CR-SPLIT at least 3 times - and trim exposure time to fit in visibility window. This setup for the "long" exposures replicates the setup used for GO-12228 for this target and WEDGE observations. SCALABLE PARAMETER FOR SUB-ARRAY Readout: SIZEAXIS2 = 20 is 1" in full extent (r = 0.5") For these "long" exposures we will image perpendicular to the wedge (symmetrically) centered on the target to the maximum extent permitted by the limits of the FOV (edge of the detector) on the "small" side of the Wedge A taper. Thus, for these short exposures we use SIZEAXIS12 = 427, appropriate for the WedgeA1.0 position. ------------------------------------------------------------------------------------------------------------------------------------ Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ V-AU-MIC 1 STIS/CCD ACQ F25ND3 MIRROR none none none none 1 N/A V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 1 1 N/A 6 V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 2 1 N/A 6 V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 3 1 N/A 6 V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 4 1 N/A 6 V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 5 1 N/A 6 V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 6 1 N/A 6 15219( 8) - 18-Jun-2018 10:41:28 - [ 33] Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 7 1 N/A 6 V-AU-MIC 2 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 8 1 N/A 6 V-AU-MIC 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 1 1 N/A 6 V-AU-MIC 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 2 1 N/A 6 V-AU-MIC 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 3 1 N/A 6 V-AU-MIC 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 4 1 N/A 6 V-AU-MIC 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 5 1 N/A 6 V-AU-MIC 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 6 1 N/A 6 V-AU-MIC 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 7 1 N/A 6 V-AU-MIC 3 STIS/CCD ACCUM WEDGEA0. MIRROR none none none 8 1 N/A 6 V-AU-MIC 4 STIS/CCD ACCUM WEDGEA1. MIRROR none none none 1 1 N/A 0 V-AU-MIC 4 STIS/CCD ACCUM WEDGEA1. MIRROR none none none 2 1 N/A 0 V-AU-MIC 4 STIS/CCD ACCUM WEDGEA1. MIRROR none none none 3 1 N/A 0 15219( 8) - 18-Jun-2018 10:41:28 - [ 34] Visit: 21 Visit Requirements: PCS MODE FINE; GUID TOL 0.005"; GYRO MODE 3GOBAD; ORIENT -6.5D TO -6.5D FROM 23 On Hold Comments: Additional Comments: AU MIC (V=8.61, B-V = + 1.45). Second of two sets of visits, each containing three visits of AU MIC at different relative orientations with two PSF calibration observations interleaved. This set of visits uses BAR5. This is the first AU MIC visit in the second set. The five visits within each set MUST be executed sequentally in contiguous orbits interrupted only for Earth occultation. Orientation: We have set the allowable orientation to range from -6.5 deg to -6.5 degrees from Visit 23, to allow a sufficiently large scheduling window. NOTE TO PC: Our science is optimized if we can achieve an orient as close as possible to -6.5 degrees from the preferred absolute orient of 353.7 degrees in Visit 23. We ask that you please try to identify scheduling windows that enable us to get as close as possible to this orientation. IF the absolute orient of Visit 23 deviates from 353.7 degrees, PLEASE ask us for guidance as to the orientation range we prefer for Visit 21. We absolutely do NOT want the disk major axis (128.7 degrees) to align with the STIS diffration spikes in Visits 21, 23, or 25. Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 1 V-AU-MIC STIS/CCD ACQ F25ND3 MIRROR 1 0.4 S (0.4 GS ACQ SCENARIO BASE1B3; S) SEQ 1-10 NON-INT Comments: SNR = 100, V = 8.61, sp = M1Ve, Exptime rounded to nearest 0.1 second ------------------------------------------------------------------------------------------------------------------------------------ 2 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=8, 1 133 S (133 GAIN=4, CENTERAXIS2=700 S) Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target on the mid-line of BAR5. We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 35] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 3 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=8, 1 133 S (133 GAIN=4, CENTERAXIS2=700 S) Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target on the mid-line of BAR5. We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 4 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=5, 1 83.5 S GAIN=4, CENTERAXIS2=700 (83.5 S) Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target on the mid-line of BAR5. We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 36] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 5 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=8, 1 133 S (133 POS TARG 0.0024921, GAIN=4, CENTERAXIS2=700 S) 0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly above the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = 0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 6 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=8, 1 133 S (133 POS TARG 0.0024921, GAIN=4, CENTERAXIS2=700 S) 0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly above the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = 0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 37] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 7 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=5, 1 83.5 S POS TARG 0.0024921, GAIN=4, CENTERAXIS2=700 (83.5 S) 0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly above the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = 0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 8 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=8, 1 133 S (133 POS TARG -0.0024921, GAIN=4, CENTERAXIS2=700 S) -0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly below the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = -0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 38] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 9 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=8, 1 133 S (133 POS TARG -0.0024921, GAIN=4, CENTERAXIS2=700 S) -0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly below the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = -0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 10 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=4, 1 66.8 S POS TARG -0.0024921, GAIN=4, CENTERAXIS2=700 (66.8 S) -0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly below the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = -0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 39] Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ V-AU-MIC 1 STIS/CCD ACQ F25ND3 MIRROR none none none none 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A V-AU-MIC 4 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 4 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 4 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 4 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 4 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A V-AU-MIC 7 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 7 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 7 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 7 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A 15219( 8) - 18-Jun-2018 10:41:28 - [ 40] Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ V-AU-MIC 7 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A V-AU-MIC 10 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 10 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 10 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 10 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A 15219( 8) - 18-Jun-2018 10:41:28 - [ 41] Visit: 22 Visit Requirements: PCS MODE FINE; GUID TOL 0.005"; GYRO MODE 3GOBAD; AFTER 25 BY .8 Orbits TO 1.5 Orbits On Hold Comments: Additional Comments: PSF1 (HD191849). PSF calibration target for AU MIC. V = 7.97. B-V = +1.46. Second of two sets of visits, each containing three visits of AU MIC at different relative orientations with two PSF calibration observations interleaved. This set of visits uses BAR5. The five visits within each set MUST be executed sequentally in contiguous orbits interrupted only for Earth occultation. Orientation: NOTE TO OUR PC: Our PSF star visits (#22 and #24) have no absolute or relative orientation constraints. However, all other things being equal, when scheduled, we would request that both be observed with roll angles as close to Visit 23 as possible. This is not a hard requirement and we do not constrain, but a request this if possible to optimize the science return through likely better PSF calibration. Relative Timing: This visit (22) MUST immediately follow visit 25 and immediately precede visit 24. I.e., They should be executed sequentially in "back-to-back" orbits. Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 1 PSFSTAR1-HD STIS/CCD ACQ F25ND3 MIRROR 1 0.3 S (0.3 GS ACQ SCENARIO BASE1B3; -191849 S) SEQ 1-7 NON-INT Comments: SNR = 100, V = 7.97, sp = M0Ve, Exptime rounded to nearest 0.1 second ------------------------------------------------------------------------------------------------------------------------------------ 2 PSFSTAR1-HD STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, GAIN=4, 1 92 S (92 -191849 CR-SPLIT=8, CENTERAXIS2=700 S) Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target on the mid-line of BAR5. We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 11.5 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 11.5 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 42] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 3 PSFSTAR1-HD STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, GAIN=4, 1 34.5 S -191849 CENTERAXIS2=700, CR-SPLIT=3 (34.5 S) Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target on the mid-line of BAR5. We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 11.5 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 11.5 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 4 PSFSTAR1-HD STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, GAIN=4, 1 92 S (92 POS TARG 0.0024921, -191849 CR-SPLIT=8, CENTERAXIS2=700 S) 0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly above the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = 0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 11.5 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 11.5 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 43] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 5 PSFSTAR1-HD STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, GAIN=4, 1 34.5 S POS TARG 0.0024921, -191849 CENTERAXIS2=700, CR-SPLIT=3 (34.5 S) 0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly above the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = 0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 11.5 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 11.5 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 6 PSFSTAR1-HD STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, GAIN=4, 1 92 S (92 POS TARG -0.0024921, -191849 CR-SPLIT=8, CENTERAXIS2=700 S) -0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly below the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = -0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 11.5 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 11.5 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 44] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 7 PSFSTAR1-HD STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, GAIN=4, 1 34.5 S POS TARG -0.0024921, -191849 CENTERAXIS2=700, CR-SPLIT=3 (34.5 S) -0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly below the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = -0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 11.5 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 11.5 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ PSFSTAR1-HD-191849 1 STIS/CCD ACQ F25ND3 MIRROR none none none none 1 N/A PSFSTAR1-HD-191849 2 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A PSFSTAR1-HD-191849 2 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A PSFSTAR1-HD-191849 2 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A PSFSTAR1-HD-191849 2 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A PSFSTAR1-HD-191849 2 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A PSFSTAR1-HD-191849 2 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A PSFSTAR1-HD-191849 2 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A PSFSTAR1-HD-191849 2 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A PSFSTAR1-HD-191849 3 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A PSFSTAR1-HD-191849 3 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A PSFSTAR1-HD-191849 3 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A PSFSTAR1-HD-191849 4 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A PSFSTAR1-HD-191849 4 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A PSFSTAR1-HD-191849 4 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A PSFSTAR1-HD-191849 4 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A PSFSTAR1-HD-191849 4 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A PSFSTAR1-HD-191849 4 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A PSFSTAR1-HD-191849 4 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A PSFSTAR1-HD-191849 4 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A 15219( 8) - 18-Jun-2018 10:41:28 - [ 45] Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ PSFSTAR1-HD-191849 5 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A PSFSTAR1-HD-191849 5 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A PSFSTAR1-HD-191849 5 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A PSFSTAR1-HD-191849 6 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A PSFSTAR1-HD-191849 6 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A PSFSTAR1-HD-191849 6 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A PSFSTAR1-HD-191849 6 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A PSFSTAR1-HD-191849 6 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A PSFSTAR1-HD-191849 6 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A PSFSTAR1-HD-191849 6 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A PSFSTAR1-HD-191849 6 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A PSFSTAR1-HD-191849 7 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A PSFSTAR1-HD-191849 7 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A PSFSTAR1-HD-191849 7 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A 15219( 8) - 18-Jun-2018 10:41:28 - [ 46] Visit: 23 Visit Requirements: PCS MODE FINE; GUID TOL 0.005"; GYRO MODE 3GOBAD; ORIENT 343.7D TO 3.7 D; AFTER 21 BY 0.5 Orbits TO 1.2 Orbits On Hold Comments: Additional Comments: AU MIC (V=8.61, B-V = + 1.45). Second of two sets of visits, each containing three visits of AU MIC at different relative orientations with two PSF calibration observations interleaved. This set of visits uses BAR5. This is the second AU MIC visit in the second set. The five visits within each set MUST be executed sequentally in contiguous orbits interrupted only for Earth occultation. Orientation: We have set the allowable absolute orientation to range from 343.7 deg to 3.7 degrees, to allow a sufficiently large scheduling window. NOTE TO PC: AU Mic's disk has a PA of 128.7 degrees. Our science is optimized if we can achieve an absolute orient that places the major axis of AU Mic's disk perpendicular to the long axis of BAR5. We need our absolute orient to be as close as possible to (128.7 degrees + 45 degrees = 173.7 degrees; or equivalently ok 128.7 degrees + 225 degrees = 353.7 degrees). We ask that you please try to identify scheduling windows that enable us to get as close as possible to either of these absolute orientations. These orientiations place the circumstellar disk axis perpendicular to the long-axis of BAR5. We have allowed a +/-10 degree window about this strong preference to aid scheduled and GS acquisition. Relative Timing: This visit (23) MUST immediately follow Visit 21 and immediately preceed Visit 25 in back-to-back orbits. Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 1 V-AU-MIC STIS/CCD ACQ F25ND3 MIRROR 1 0.4 S (0.4 GS ACQ SCENARIO BASE1B3; S) SEQ 1-10 NON-INT Comments: SNR = 100, V = 8.61, sp = M1Ve, Exptime rounded to nearest 0.1 second ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 47] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 2 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=8, 1 133 S (133 GAIN=4, CENTERAXIS2=700 S) Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target on the mid-line of BAR5. We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 3 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=8, 1 133 S (133 GAIN=4, CENTERAXIS2=700 S) Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target on the mid-line of BAR5. We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 48] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 4 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=5, 1 83.5 S GAIN=4, CENTERAXIS2=700 (83.5 S) Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target on the mid-line of BAR5. We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 5 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=8, 1 133 S (133 POS TARG 0.0024921, GAIN=4, CENTERAXIS2=700 S) 0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly above the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = 0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 49] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 6 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=8, 1 133 S (133 POS TARG 0.0024921, GAIN=4, CENTERAXIS2=700 S) 0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly above the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = 0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 7 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=5, 1 83.5 S POS TARG 0.0024921, GAIN=4, CENTERAXIS2=700 (83.5 S) 0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly above the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = 0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 50] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 8 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=8, 1 133 S (133 POS TARG -0.0024921, GAIN=4, CENTERAXIS2=700 S) -0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly below the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = -0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 9 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=8, 1 133 S (133 POS TARG -0.0024921, GAIN=4, CENTERAXIS2=700 S) -0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly below the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = -0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 51] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 10 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=4, 1 66.8 S POS TARG -0.0024921, GAIN=4, CENTERAXIS2=700 (66.8 S) -0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly below the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = -0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ V-AU-MIC 1 STIS/CCD ACQ F25ND3 MIRROR none none none none 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A V-AU-MIC 4 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 4 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 4 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A 15219( 8) - 18-Jun-2018 10:41:28 - [ 52] Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ V-AU-MIC 4 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 4 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A V-AU-MIC 7 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 7 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 7 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 7 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 7 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A V-AU-MIC 10 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 10 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 10 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 10 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A 15219( 8) - 18-Jun-2018 10:41:28 - [ 53] Visit: 24 Visit Requirements: PCS MODE FINE; GUID TOL 0.005"; GYRO MODE 3GOBAD; AFTER 22 BY 0.5 Orbits TO 1.2 Orbits On Hold Comments: Additional Comments: PSF1 (HD191849). PSF calibration target for AU MIC. V = 7.97. B-V = +1.46. Second of two sets of visits, each containing three visits of AU MIC at different relative orientations with two PSF calibration observations interleaved. This set of visits uses BAR5. The five visits within each set MUST be executed sequentally in contiguous orbits interrupted only for Earth occultation. Orientation: NOTE TO OUR PC: Our PSF star visits (#22 and #24) have no absolute or relative orientation constraints. However, all other things being equal, when scheduled, we would request that both be observed with roll angles as close to Visit 23 as possible. This is not a hard requirement and we do not constrain, but a request this if possible to optimize the science return through likely better PSF calibration. Relative Timing: This visit (24) MUST immediately follow visit 22. I.e., They should be executed sequentially in "back-to-back" orbits. Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 1 PSFSTAR1-HD STIS/CCD ACQ F25ND3 MIRROR 1 0.3 S (0.3 GS ACQ SCENARIO BASE1B3; -191849 S) SEQ 1-12 NON-INT Comments: SNR = 100, V = 7.97, sp = M0Ve, Exptime rounded to nearest 0.1 second ------------------------------------------------------------------------------------------------------------------------------------ 2 PSFSTAR1-HD STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, GAIN=4, 1 92 S (92 -191849 CR-SPLIT=8, CENTERAXIS2=700 S) Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target on the mid-line of BAR5. We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 11.5 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 11.5 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 54] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 3 PSFSTAR1-HD STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, GAIN=4, 1 92 S (92 -191849 CR-SPLIT=8, CENTERAXIS2=700 S) Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target on the mid-line of BAR5. We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 11.5 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 11.5 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 4 PSFSTAR1-HD STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, GAIN=4, 1 92 S (92 -191849 CR-SPLIT=8, CENTERAXIS2=700 S) Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target on the mid-line of BAR5. We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 11.5 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 11.5 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 55] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 5 PSFSTAR1-HD STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, GAIN=4, 1 23 S (23 -191849 CENTERAXIS2=700, CR-SPLIT=2 S) Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target on the mid-line of BAR5. We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 11.5 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 11.5 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 6 PSFSTAR1-HD STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, GAIN=4, 1 92 S (92 POS TARG 0.0024921, -191849 CR-SPLIT=8, CENTERAXIS2=700 S) 0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly above the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = 0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 11.5 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 11.5 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 56] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 7 PSFSTAR1-HD STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, GAIN=4, 1 92 S (92 POS TARG 0.0024921, -191849 CR-SPLIT=8, CENTERAXIS2=700 S) 0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly above the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = 0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 11.5 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 11.5 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 8 PSFSTAR1-HD STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, GAIN=4, 1 92 S (92 POS TARG 0.0024921, -191849 CR-SPLIT=8, CENTERAXIS2=700 S) 0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly above the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = 0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 11.5 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 11.5 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 57] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 9 PSFSTAR1-HD STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, GAIN=4, 1 11.5 S POS TARG 0.0024921, -191849 CENTERAXIS2=700 (11.5 S) 0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly above the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = 0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 11.5 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 11.5 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 10 PSFSTAR1-HD STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, GAIN=4, 1 92 S (92 POS TARG -0.0024921, -191849 CR-SPLIT=8, CENTERAXIS2=700 S) -0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly below the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = -0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 11.5 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 11.5 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 58] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 11 PSFSTAR1-HD STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, GAIN=4, 1 92 S (92 POS TARG -0.0024921, -191849 CR-SPLIT=8, CENTERAXIS2=700 S) -0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly below the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = -0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 11.5 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 11.5 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 12 PSFSTAR1-HD STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, GAIN=4, 1 92 S (92 POS TARG -0.0024921, -191849 CR-SPLIT=8, CENTERAXIS2=700 S) -0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly below the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = -0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 11.5 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 11.5 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 59] Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ PSFSTAR1-HD-191849 1 STIS/CCD ACQ F25ND3 MIRROR none none none none 1 N/A PSFSTAR1-HD-191849 2 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A PSFSTAR1-HD-191849 2 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A PSFSTAR1-HD-191849 2 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A PSFSTAR1-HD-191849 2 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A PSFSTAR1-HD-191849 2 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A PSFSTAR1-HD-191849 2 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A PSFSTAR1-HD-191849 2 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A PSFSTAR1-HD-191849 2 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A PSFSTAR1-HD-191849 3 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A PSFSTAR1-HD-191849 3 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A PSFSTAR1-HD-191849 3 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A PSFSTAR1-HD-191849 3 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A PSFSTAR1-HD-191849 3 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A PSFSTAR1-HD-191849 3 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A PSFSTAR1-HD-191849 3 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A PSFSTAR1-HD-191849 3 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A PSFSTAR1-HD-191849 4 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A PSFSTAR1-HD-191849 4 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A PSFSTAR1-HD-191849 4 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A PSFSTAR1-HD-191849 4 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A PSFSTAR1-HD-191849 4 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A PSFSTAR1-HD-191849 4 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A PSFSTAR1-HD-191849 4 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A PSFSTAR1-HD-191849 4 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A PSFSTAR1-HD-191849 5 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A PSFSTAR1-HD-191849 5 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A PSFSTAR1-HD-191849 6 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A PSFSTAR1-HD-191849 6 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A PSFSTAR1-HD-191849 6 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A PSFSTAR1-HD-191849 6 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A PSFSTAR1-HD-191849 6 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A PSFSTAR1-HD-191849 6 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A PSFSTAR1-HD-191849 6 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A PSFSTAR1-HD-191849 6 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A PSFSTAR1-HD-191849 7 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A PSFSTAR1-HD-191849 7 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A PSFSTAR1-HD-191849 7 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A PSFSTAR1-HD-191849 7 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A PSFSTAR1-HD-191849 7 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A PSFSTAR1-HD-191849 7 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A PSFSTAR1-HD-191849 7 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A 15219( 8) - 18-Jun-2018 10:41:28 - [ 60] Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ PSFSTAR1-HD-191849 7 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A PSFSTAR1-HD-191849 8 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A PSFSTAR1-HD-191849 8 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A PSFSTAR1-HD-191849 8 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A PSFSTAR1-HD-191849 8 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A PSFSTAR1-HD-191849 8 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A PSFSTAR1-HD-191849 8 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A PSFSTAR1-HD-191849 8 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A PSFSTAR1-HD-191849 8 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A PSFSTAR1-HD-191849 9 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A PSFSTAR1-HD-191849 9 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A PSFSTAR1-HD-191849 10 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A PSFSTAR1-HD-191849 10 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A PSFSTAR1-HD-191849 10 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A PSFSTAR1-HD-191849 10 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A PSFSTAR1-HD-191849 10 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A PSFSTAR1-HD-191849 10 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A PSFSTAR1-HD-191849 10 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A PSFSTAR1-HD-191849 10 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A PSFSTAR1-HD-191849 11 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A PSFSTAR1-HD-191849 11 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A PSFSTAR1-HD-191849 11 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A PSFSTAR1-HD-191849 11 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A PSFSTAR1-HD-191849 11 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A PSFSTAR1-HD-191849 11 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A PSFSTAR1-HD-191849 11 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A PSFSTAR1-HD-191849 11 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A PSFSTAR1-HD-191849 12 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A PSFSTAR1-HD-191849 12 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A PSFSTAR1-HD-191849 12 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A PSFSTAR1-HD-191849 12 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A PSFSTAR1-HD-191849 12 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A PSFSTAR1-HD-191849 12 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A PSFSTAR1-HD-191849 12 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A PSFSTAR1-HD-191849 12 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A 15219( 8) - 18-Jun-2018 10:41:28 - [ 61] Visit: 25 Visit Requirements: PCS MODE FINE; GUID TOL 0.005"; GYRO MODE 3GOBAD; ORIENT 6.5D TO 6.5D FROM 23; AFTER 23 BY 0.5 Orbits TO 1.2 Orbits On Hold Comments: Additional Comments: AU MIC (V=8.61, B-V = + 1.45). Second of two sets of visits, each containing three visits of AU MIC at different relative orientations with two PSF calibration observations interleaved. This set of visits uses BAR5. This is the third AU MIC visit in the second set. The five visits within each set MUST be executed sequentally in contiguous orbits interrupted only for Earth occultation. Orientation: We have set the allowable orientation to range from +6.5 deg to +6.5 degrees from Visit 23, to allow a sufficiently large scheduling window. NOTE TO PC: Our science is optimized if we can achieve an orient as close as possible to +6.5 degrees from the preferred absolute orient of 353.7 degrees in Visit 23. We ask that you please try to identify scheduling windows that enable us to get as close as possible to this orientation. IF the absolute orient of Visit 23 deviates from 353.7 degrees, PLEASE ask us for guidance as to the orientation range we prefer for Visit 25. We absolutely do NOT want the disk major axis (128.7 degrees) to align with the STIS diffration spikes in Visits 21, 23, or 25. Relative Timing: This visit (25) MUST immediately follow Visit 23. I.e., They should be executed sequentially in "back-to-back" orbits. Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 1 V-AU-MIC STIS/CCD ACQ F25ND3 MIRROR 1 0.4 S (0.4 GS ACQ SCENARIO BASE1B3; S) SEQ 1-10 NON-INT Comments: SNR = 100, V = 8.61, sp = M1Ve, Exptime rounded to nearest 0.1 second ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 62] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 2 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=8, 1 133 S (133 GAIN=4, CENTERAXIS2=700 S) Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target on the mid-line of BAR5. We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 3 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=8, 1 133 S (133 GAIN=4, CENTERAXIS2=700 S) Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target on the mid-line of BAR5. We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 63] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 4 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=5, 1 83.5 S GAIN=4, CENTERAXIS2=700 (83.5 S) Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target on the mid-line of BAR5. We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 5 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=8, 1 133 S (133 POS TARG 0.0024921, GAIN=4, CENTERAXIS2=700 S) 0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly above the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = 0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 64] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 6 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=8, 1 133 S (133 POS TARG 0.0024921, GAIN=4, CENTERAXIS2=700 S) 0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly above the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = 0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 7 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=5, 1 83.5 S POS TARG 0.0024921, GAIN=4, CENTERAXIS2=700 (83.5 S) 0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly above the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = 0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 65] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 8 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=8, 1 133 S (133 POS TARG -0.0024921, GAIN=4, CENTERAXIS2=700 S) -0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly below the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = -0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 9 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=8, 1 133 S (133 POS TARG -0.0024921, GAIN=4, CENTERAXIS2=700 S) -0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly below the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = -0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 66] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 10 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=4, 1 66.8 S POS TARG -0.0024921, GAIN=4, CENTERAXIS2=700 (66.8 S) -0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly below the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = -0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ V-AU-MIC 1 STIS/CCD ACQ F25ND3 MIRROR none none none none 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A V-AU-MIC 4 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 4 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 4 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A 15219( 8) - 18-Jun-2018 10:41:28 - [ 67] Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ V-AU-MIC 4 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 4 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A V-AU-MIC 7 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 7 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 7 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 7 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 7 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A V-AU-MIC 10 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 10 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 10 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 10 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A 15219( 8) - 18-Jun-2018 10:41:28 - [ 68] Visit: 31 Visit Requirements: PCS MODE FINE; GUID TOL 0.005"; GYRO MODE 3GOBAD; ORIENT 263.7D TO 263.7 D; ORIENT 83.7D TO 83.7 D On Hold Comments: Additional Comments: AU MIC (V=8.61, B-V = + 1.45). This visit uses BAR5. Orientation: To achive optical chromatic calibration, this visit places the circumstellar disk of AU Mic along the long-axis of BAR5. The PA of AU Mic's disk is 128.7 degrees. This visit thus MUST have EITHER the abolute orientation of 263.7 degrees or 83.7 degrees. Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 1 V-AU-MIC STIS/CCD ACQ F25ND3 MIRROR 1 0.4 S (0.4 GS ACQ SCENARIO BASE1B3; S) SEQ 1-10 NON-INT Comments: SNR = 100, V = 8.61, sp = M1Ve, Exptime rounded to nearest 0.1 second ------------------------------------------------------------------------------------------------------------------------------------ 2 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=8, 1 133 S (133 GAIN=4, CENTERAXIS2=700 S) Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target on the mid-line of BAR5. We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 69] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 3 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=8, 1 133 S (133 GAIN=4, CENTERAXIS2=700 S) Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target on the mid-line of BAR5. We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 4 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=5, 1 83.5 S GAIN=4, CENTERAXIS2=700 (83.5 S) Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target on the mid-line of BAR5. We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 70] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 5 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=8, 1 133 S (133 POS TARG 0.0024921, GAIN=4, CENTERAXIS2=700 S) 0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly above the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = 0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 6 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=8, 1 133 S (133 POS TARG 0.0024921, GAIN=4, CENTERAXIS2=700 S) 0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly above the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = 0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 71] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 7 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=5, 1 83.5 S POS TARG 0.0024921, GAIN=4, CENTERAXIS2=700 (83.5 S) 0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly above the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = 0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 8 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=8, 1 133 S (133 POS TARG -0.0024921, GAIN=4, CENTERAXIS2=700 S) -0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly below the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = -0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 72] Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 9 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=8, 1 133 S (133 POS TARG -0.0024921, GAIN=4, CENTERAXIS2=700 S) -0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly below the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = -0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 10 V-AU-MIC STIS/CCD ACCUM BAR5 MIRROR SIZEAXIS2=100, CR-SPLIT=4, 1 66.8 S POS TARG -0.0024921, GAIN=4, CENTERAXIS2=700 (66.8 S) -0.0122491 Comments: NOTE TO PC/CS: Here we use the BAR5 occulter (Aperture) that we comissioned in GO program 12923. Here we attempt to place the target slightly below the mid-line of BAR5, using a 0.25 pixel dither perpendicular to the BAR5 long-axis (via POS TARG offsets of x = 0.0024921 arcsec and y = -0.0122491). We then use a subarray readout of CENTYERAXIS2 = 700 appopriate for BAR5 with a SIZEAXIS2 = 100 (the same that we used for GO program 13786) SCALABLE BENCHMARK: We scale our exposure times from GO-12923. We expect that 16.7 seconds per exposure will yield 75% to saturation in the brightest pixel. Our exposures are thus comprised of CR-SPLITS in integral units of 16.7 second exposures. ------------------------------------------------------------------------------------------------------------------------------------ 15219( 8) - 18-Jun-2018 10:41:28 - [ 73] Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ V-AU-MIC 1 STIS/CCD ACQ F25ND3 MIRROR none none none none 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A V-AU-MIC 2 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A V-AU-MIC 3 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A V-AU-MIC 4 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 4 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 4 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 4 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 4 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A V-AU-MIC 5 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A V-AU-MIC 6 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A V-AU-MIC 7 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 7 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 7 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 7 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A 15219( 8) - 18-Jun-2018 10:41:28 - [ 74] Sub Exposures ------------------------------------------------------------------------------------------------------------------------------------ Target | Exp |Instr | Oper. | Aper |Spectral|Cent.|Primary |Secondary |Iteration |CR-SPLIT |Orbit |Duration Name | Num |Config | Mode | or FOV |Element |Wave.|Pattern Pos |Pattern Pos |Num |Num |Number | ------------------------------------------------------------------------------------------------------------------------------------ V-AU-MIC 7 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A V-AU-MIC 8 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 5 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 6 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 7 1 N/A V-AU-MIC 9 STIS/CCD ACCUM BAR5 MIRROR none none none 8 1 N/A V-AU-MIC 10 STIS/CCD ACCUM BAR5 MIRROR none none none 1 1 N/A V-AU-MIC 10 STIS/CCD ACCUM BAR5 MIRROR none none none 2 1 N/A V-AU-MIC 10 STIS/CCD ACCUM BAR5 MIRROR none none none 3 1 N/A V-AU-MIC 10 STIS/CCD ACCUM BAR5 MIRROR none none none 4 1 N/A 15219( 8) - 18-Jun-2018 10:41:28 - [ 75] Summary Form for Proposal 15219 Item Used in this proposal ------------------------------------------------------------------------------------------------------------------------------------ Apertures BAR5, F25ND3, WEDGEA0.6, WEDGEA1.0 ------------------------------------------------------------------------------------------------------------------------------------ Configurations STIS/CCD ------------------------------------------------------------------------------------------------------------------------------------ Opmodes ACCUM, ACQ ------------------------------------------------------------------------------------------------------------------------------------ Optional Parameters CENTERAXIS2=700, CR-SPLIT=2, CR-SPLIT=3, CR-SPLIT=4, CR-SPLIT=5, CR-SPLIT=8, GAIN=4, SIZEAXIS2=100, SIZEAXIS2=137, SIZEAXIS2=427 ------------------------------------------------------------------------------------------------------------------------------------ Special Requirements AFTER 01 BY 0.5 Orbits TO 1.2 Orbits, AFTER 02 BY 0.5 Orbits TO 1.2 Orbits, AFTER 03 BY 0.5 Orbits TO 1.2 Orbits, AFTER 04 BY 0.5 Orbits TO 1.2 Orbits, AFTER 21 BY 0.5 Orbits TO 1.2 Orbits, AFTER 22 BY 0.5 Orbits TO 1.2 Orbits, AFTER 23 BY 0.5 Orbits TO 1.2 Orbits, AFTER 25 BY .8 Orbits TO 1.5 Orbits, GS ACQ SCENARIO BASE1B3, GUID TOL 0.005", GYRO MODE 3GOBAD, ORIENT -30D TO -20D FROM 03, ORIENT -6.5D TO -6.5D FROM 23, ORIENT 173.7D TO 173.7 D, ORIENT 20D TO 30D FROM 03, ORIENT 263.7D TO 263.7 D, ORIENT 343.7D TO 3.7 D, ORIENT 353.7D TO 353.7 D, ORIENT 6.5D TO 6.5D FROM 23, ORIENT 73.7D TO 93.7 D, ORIENT 83.7D TO 83.7 D, PCS MODE FINE, POS TARG -0.0024921, -0.0122491, POS TARG 0.0024921, 0.0122491, SEQ 1-10 NON-INT, SEQ 1-12 NON-INT, SEQ 1-4 NON-INT, SEQ 1-7 NON-INT ------------------------------------------------------------------------------------------------------------------------------------ Spectral Elements MIRROR ------------------------------------------------------------------------------------------------------------------------------------ Target Names PSFSTAR1-HD-191849, PSFSTAR2-HD-198939, V-AU-MIC ------------------------------------------------------------------------------------------------------------------------------------