15963( 3) - 10-Jul-2019 14:54:24 - [ 1] HUBBLE SPACE TELESCOPE OBSERVING PROGRAM 15963 Version: 3 Check-in Time: 10-Jul-2019 14:54:24 STScI Edit Number: 1 Title Stellar X-ray Cycles: the Shape of Things to Come ------------------------------------------------------------------------------------ Type Cycle GO 27 ------------------------------------------------------------------------------------ Investigators Contact? PI: Dr. Thomas R. Ayres University of Colorado at Boulder Y ------------------------------------------------------------------------------------ Abstract Somewhat erratic, unpredictable long-term starspot cycles of late-type stars are relevant for understanding the Sun's analogous high-energy modulations, in turn crucial to Earth-impacting "Space Weather" (SW). Similarly, stellar SW counterparts can have eqivalent, or more severe, adverse effects on their exoplanets. The solar decadal oscillations are symptomatic of a deep-seated magnetic pump -- the Dynamo -- whose internal workings remain elusive. Key question: is Sun's 11-year cycle normal, or instead a transition state? A 3-year continuation of previous long-term Chandra/HST programs will be carried out for Alpha Cen AB (G2V+K1V) and Procyon (F5IV), nearby bright stars that bracket the Sun in their fundamental stellar properties. HST part of the program will measure FUV subcoronal (T~100, 000 K) emission lines, like Si IV 140 nm and C IV 155 nm, as well as the important NUV chromospheric (T~10, 000 K) emission doublet of Mg II at 280 nm, in all three stars, with one visit of STIS echelle spectroscopy per system each year. Non-standard wavecals provide better wavelength calibrations, so that subtle Doppler shifts of the high-excitation emissions can be assessed. Dynamical information also is encoded in distortions of the line shapes, captured using combinations of FUV medium- and high-resolution echelle settings. ------------------------------------------------------------------------------------ Observations Description ------------------------ **Impact of Reduced Gyro Mode** ------------------------------------------------- Main impact of RGM would fall on target Alpha Cen A+B (see below), for which CVZ orbits are specified, together with an orientation constraint for one of the ND-filtered long-slit exposures, to avoid having both stars (currently only ~6" apart) fall on the slit at the same time. If RGM becomes necessary in Cycle 27, before the the Alp Cen observation is scheduled, then the observing program would be modified as follows: (1) the two NUV echelle exposures would be eliminated (one of which uses the problematic long-slit); (2) the FUV exposures of both stars would be done with high-sensitivity E140M-1425 (in 3-gyro Phase II, a pair of E140H's are used for Alp Cen B, which has narrower emission lines); and (3) the exposure times would be reduced to allow the 2-orbit pointing to be carried out in non-CVZ time, to increase scheduling opportunities. The loss in science would be minor, because the FUV spectral region is the highest priority in terms of its potential information content. 15963( 3) - 10-Jul-2019 14:54:24 - [ 2] The second target, Procyon, another bright star, would be minimally affected by RGM, because there are no explicit constraints on the observation sequence, it can be carried out anytime during Cycle 27 when the target is available, and the pointing is only 2 orbits, minimizing the possibility of re-acquisition failures. However, if acquisition times are increased, then one or more of the exposures would have to be shortened. This can be done with minimal loss of science. ------------------------------------------------- Phase II Observing Description (for normal 3-gyro operations) The high-declination Alpha Cen system falls in the HST Continuous Viewing Zone numerous times during the year, allowing the two stars to be captured in a single visit of just two orbits. One such visit is planned for Cycle 27, compatible with the semiannual pointings by Chandra. There is no need to strictly coordinate the FUV and X-ray pointings, because the FUV Fe XII 124 nm coronal forbidden line can tie the STIS observation into the X-ray timeline. In the single HST/STIS visit, the binary companions are observed sequentially, beginning with Alp Cen A, brighter of the two. The target is acquired with the CCD and F25ND5, followed by an exposure with the E140M-1425 medium-res echelle through the photometric slot (0.2x0.2), which delivers R=40, 000 and good sensitivity (peak S/N=40 per resol at the tops of the important Si IV 140 nm and C IV 155 nm resonance doublets). A peak-up is not needed because the CCD ACQ is accurate enough for centering in the photometric slot. The exposure depth is sufficient to capture the key Fe XII 124 nm coronal forbidden line, which as mentioned earlier is used to tie the STIS FUV measurements into the X-ray time series. The combination of resolution, spectral coverage, and sensitivity of E140M for A has proven successful in previous incarnations of this program. Following the E140M exposure, a peak-up is performed with the 31x0.05NDC slit in dispersed visible light with the CCD and G430M; then an E230H-2713 exposure is taken through that (long) slit. This setting captures the key chromospheric Mg II 280 nm resonance doublet. After the Alp Cen A exposures, a ~5" offset manuever to B is performed, followed by a CCD ACQ through F25ND5. The time-dependent separation of the binary companions is accurately known (to ~0.1"), based on orbital reconstructions of ten years of positional measurements by Chandra. Similarly, the coordinates and (an effective) proper motion of Alp Cen A were updated for Cycle 26 (and should be good for several Cycles morbased on combining the orbital and proper motion solutions derived from the Chandra positions to trace out A's trajectory across the sky. After the CCD-ACQ of B, an E140H-1307 exposure is taken through the photometric aperture, followed by an E140H-1486. The previous STIS observations of B have shown that its FUV "hot lines" (like Si IV and C IV) are narrower than those of A, and display smaller Doppler shifts. Thus, B benefits from the higher resolution, with more precise wavelength scales, of E140H. The pair of E140Hs is the minimum needed to span the key region from Si III 120 nm up to beyond the C IV 155 nm doublet, with overlapping exposure at 140 nm, which covers Si IV as well as a density-sensitive multiplet of semi-permitted O IV. By using the 0.2x0.2 photometric aperture, sensitivity is maximized without significantly sacrificing resolution, as well as minimizing telescope 15963( 3) - 10-Jul-2019 14:54:24 - [ 3] "breathing" effects. The ~2x higher exposure depth for B in the key 1307/1489 overlap region is needed because, despite being chromospherically more active than A, B is fainter in apparent flux due to its smaller size. After the E140H exposures, an E230H-2713 is taken, again to cover the important Mg II region. The 0.2x0.09 spectroscopic aperture can be used, because the predicted Global Count Rate is below the bright limit (based on previous observations of the target with the same setup), and B is only minimally variable in the continuum light that dominates that setting (the Mg II lines can be more variable, but do not contribute signifcantly to the total flux in that region; and do not approach the local bright limit). A peak-up ensures maximum throughput. The whole FUV+NUV sequence for both stars requires two CVZ orbits. Also, because a tall slit is used for A, an ORIENT constraint is specified to avoid having both targets fall on the slit simultaneously, and consequently corrupt the echellegram with overlapping spectra (and possibly also violate the global limits). The constraint is not severe, however, because the NDC slit is only 0.05" wide and the separation of the stars will be ~6" in 2020. A +/- 10 degree avoidance zone (+/- 1" pivot from B) should be sufficient to exclude B and any possible scattered light. The ORIENT avoidance zones for 2020 are listed in the Visit-level specifications. There are numerous CVZ windows throughout the year that satisfy the ORIENT constraints. The proposed STIS observations of Procyon are similar. There is one visit of two orbits, non-CVZ because of the low-declination target. The optically bright star is acquired by direct imaging with the CCD and F25ND5 filter. The ACQ is followed by a high-res FUV echelle exposure with setting E140H-1307 through the 0.2x0.2 photometric aperture, to fill out the first orbit. Second orbit begins with another high-res FUV echelle exposure, now with H-1489, again through the 0.2x0.2 slot. Together, these two settings cover the range from below Lyman Alpha (121 nm) out to beyond the C IV doublet at 155 nm, where the rising F-type photospheric continuum begins to overwhelm the faint subcoronal emission line spectrum. At the end of the second orbit, a brief NUV high-res echelle exposure is taken with setting E230H-2713 to capture the important chromospheric emission doublet of Mg II at 280 nm. Owing to the brightness of Procyon at these wavelengths, the observation must be taken through the ND2 slit, which requires a prior peak-up (in dispersed light with G430M). Non-standard lamp exposures, uniformly 45s, are used for all the FUV and NUV settings of all three stars to provide accurate zero-point wavelength shifts for the respective echellegrams. This is because the lamp output has faded over the years, and the default wavecals no longer are able to provide the desired accuracy. The deeper-than-normal wavecals ensure that the dispersion properties of the spectrometer are accurately monitored, to take full advantage of STIS's ability to measure small differential velocity shifts between emission lines formed in different environments in the stellar outer atmosphere, a major scientific goal of the project. The non-standard wavecals are forced to be adjacent to the respective science exposures by a "SEQ NON-INT" pairing. Because the GO-specified wavelength calibrations can substitute for the normal brief AUTO-WAVECALs, the latter are turned off in the respective science exposures. ------------------------------------------------------------------------------------ 15963( 3) - 10-Jul-2019 14:54:24 - [ 4] TARGET LIST Fixed Targets ------------------------------------------------------------------------------------------------------------------------------------ Tar| Target | Target | Target |Coord | Radial | Flux data No | Name | Description | Position |Eqnx | Vel. | ------------------------------------------------------------------------------------------------------------------------------------ 1 HD128620 STAR, CORONA, G V-IV RA=14H39M26.8500S +/- 1.0", J2000 V = -24 V = +0.01 +/- 0.1 DEC=-60D49'56.90" +/- 1.0" Reference Frame: ICRS Extended: NO Comments: Target coords for epoch 2018.38 were based on a global orbital + proper-motion + parallax fit to ten years of Chandra X-ray positions. Alpha Cen AB are moving past their close approach (on the sky), which occurred in 2016, consequently the relative orbital motion of A has a significant influence on its apparent proper motion. Epoch of Position RA proper motion (seconds of time/yr) DEC Proper Motion (arcsec/yr) Annual Parallax (arcsec) 2018.38 -0.5252738221543798 +0.33 0.747 ------------------------------------------------------------------------------------------------------------------------------------ 2 HD128621 STAR, CORONA, K V-IV RA-OFF=-0.15S, DEC-OFF=+5.7", J2000 V = 1.33 +/- 0.1 FROM 1 Extended: NO Comments: Offset of B relative to A, for 2020.5, was determined from the empirical ephemeris, designed to closely match the relative orbit as recorded by Chandra's High Resoultion Camera in recent years. ------------------------------------------------------------------------------------------------------------------------------------ 3 HD61421 STAR, CORONA, F3-F9 RA=07H39M17.1867S +/- 1.0", J2000 V = -3.2 V = 0.37 +/- 0.1 DEC=+05D13'9.74" +/- 1.0" Reference Frame: ICRS Extended: NO Comments: Target coords for epoch 2019.5 were taken from SIMBAD, in ICRS frame. Epoch of Position RA proper motion (seconds of time/yr) DEC Proper Motion (arcsec/yr) Annual Parallax (arcsec) 2019.50 -0.04783835225581083 -1.0368 0.285 ------------------------------------------------------------------------------------------------------------------------------------ 15963( 3) - 10-Jul-2019 14:54:24 - [ 5] Visit: 10 Visit Requirements: CVZ; ORIENT 45D TO 205 D; ORIENT 225D TO 359.99 D; ORIENT 0D TO 25 D On Hold Comments: Additional Comments: 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 HD128620 STIS/CCD ACQ F25ND5 MIRROR 1 0.1 S (0.1 GS ACQ SCENARIO BASE1B3 S) Comments: Castelli-Kurucz Models G2V 5750 4.5, renormalized to vegamag = 0.01 in filter Johnson/V: SNR~140 in 0.1 s; time to saturation 0.6 s. ------------------------------------------------------------------------------------------------------------------------------------ 2 HD128620 STIS/FUV ACCUM 0.2X0.2 E140M 1425 WAVECAL=NO 1 1750 S SEQ 2-3 NON-INT -MAMA (1750 S) Comments: Input=special ETC file for ALP-CEN-A from previous STIS echelle spectra; exposure time= 1.5 ks at Si IV 139 nm gives peak SNR~40 (per resol) with 0.2x0.2 aperture. No LCR or GCR issues. ------------------------------------------------------------------------------------------------------------------------------------ 3 WAVE STIS/FUV ACCUM 0.2X0.2 E140M 1425 1 45 S (45 -MAMA S) Comments: Deeper than normal wavecal to determine accurate zero-point shift. ------------------------------------------------------------------------------------------------------------------------------------ 4 HD128620 STIS/CCD ACQ/PEA 31X0.05ND G430M 4451 1 0.1 S (0.1 K C S) Comments: Dispersed light peak-up; Castelli-Kurucz Model G2V 5750 4.5, renormalized to vegamag = 0.01 in filter Johnson/V: in 0.1 s with NDA, GCR= 2780k e-. ------------------------------------------------------------------------------------------------------------------------------------ 5 HD128620 STIS/NUV ACCUM 31X0.05ND E230H 2713 WAVECAL=NO 1 500 S (500 SEQ 5-6 NON-INT -MAMA C S) Comments: ETC GCR~135k for Castelli-Kurucz Model G2V 5750 4.5, renormalized to vegamag = 0.01 in filter Johnson/V. Measured GCR~110k for several exposures in similar setting H-2812 with NDC; H-2713 GCR should be less because NUV continuum is falling toward shorter wavelengths. ------------------------------------------------------------------------------------------------------------------------------------ 6 WAVE STIS/NUV ACCUM 0.2X0.09 E230H 2713 1 45 S (45 -MAMA S) Comments: Deeper than normal wavecal to determine accurate zero-point shift. ------------------------------------------------------------------------------------------------------------------------------------ 15963( 3) - 10-Jul-2019 14:54:24 - [ 6] 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 HD128621 STIS/CCD ACQ F25ND5 MIRROR 1 0.1 S (0.1 S) Comments: Castelli-Kurucz Models K2V 4750 4.5, renormalized to vegamag = 1.33 in filter Johnson/V: SNR~74 in 0.1 s; time to saturation 1.7 s. ------------------------------------------------------------------------------------------------------------------------------------ 8 HD128621 STIS/FUV ACCUM 0.2X0.2 E140H 1307 WAVECAL=NO 1 2500 S SEQ 8-9 NON-INT -MAMA (2500 S) Comments: Based on new FUV spectrum of ALP-CEN-B from 4 years of STIS measurements. No LCR or GCR issues. ------------------------------------------------------------------------------------------------------------------------------------ 9 WAVE STIS/FUV ACCUM 0.2X0.2 E140H 1307 1 45 S (45 -MAMA S) Comments: Deeper than normal wavecal to determine accurate zero-point shift. ------------------------------------------------------------------------------------------------------------------------------------ 10 HD128621 STIS/FUV ACCUM 0.2X0.2 E140H 1489 WAVECAL=NO 1 1900 S SEQ 10-11 NON-INT -MAMA (1900 S) Comments: Based on new FUV spectrum of ALP-CEN-B from 4 years of STIS measurements. No LCR or GCR issues. ------------------------------------------------------------------------------------------------------------------------------------ 11 WAVE STIS/FUV ACCUM 0.2X0.2 E140H 1489 1 45 S (45 -MAMA S) Comments: Deeper than normal wavecal to determine accurate zero-point shift. ------------------------------------------------------------------------------------------------------------------------------------ 12 HD128621 STIS/CCD ACQ/PEA 0.2X0.09 G430M 3936 1 0.1 S (0.1 K S) Comments: Dispersed light peak-up; Castelli-Kurucz Models K2V 4750 4.5, renormalized to vegamag = 1.33 in filter Johnson/V: 5470k e- in 0.1 s; time to saturation 0.9 s. ------------------------------------------------------------------------------------------------------------------------------------ 13 HD128621 STIS/NUV ACCUM 0.2X0.09 E230H 2713 WAVECAL=NO 1 500 S (500 SEQ 13-14 NON-INT -MAMA S) Comments: GCR= 73k from ETC run for Castelli-Kurucz Model K2V 4750 4.5, renormalized to vegamag = 1.33 in filter Johnson/V. Variability expected to be very low in the K-dwarf continuum, which dominates the H-2713 setting. Measured GCRs from ocre10050, ocre11050, octr10050, and od5c10050 (same setting and slit) are 126k+/-13k. ------------------------------------------------------------------------------------------------------------------------------------ 15963( 3) - 10-Jul-2019 14:54:24 - [ 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 ------------------------------------------------------------------------------------------------------------------------------------ 14 WAVE STIS/NUV ACCUM 0.2X0.09 E230H 2713 1 45 S (45 -MAMA S) Comments: Deeper than normal wavecal to determine accurate zero-point shift. ------------------------------------------------------------------------------------------------------------------------------------ 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 | ------------------------------------------------------------------------------------------------------------------------------------ HD128620 1 STIS/CCD ACQ F25ND5 MIRROR none none none none 1 N/A HD128620 2 STIS/FUV ACCUM 0.2X0.2 E140M 1425 none none none none 1 N/A -MAMA WAVE 3 STIS/FUV ACCUM 0.2X0.2 E140M 1425 none none none none 1 N/A -MAMA HD128620 4 STIS/CCD ACQ/PEA 31X0.05N G430M 4451 none none none none 1 N/A K DC HD128620 5 STIS/NUV ACCUM 31X0.05N E230H 2713 none none none none 1 N/A -MAMA DC WAVE 6 STIS/NUV ACCUM 0.2X0.09 E230H 2713 none none none none 1 N/A -MAMA HD128621 7 STIS/CCD ACQ F25ND5 MIRROR none none none none 1 N/A HD128621 8 STIS/FUV ACCUM 0.2X0.2 E140H 1307 none none none none 1 N/A -MAMA WAVE 9 STIS/FUV ACCUM 0.2X0.2 E140H 1307 none none none none 2 N/A -MAMA HD128621 10 STIS/FUV ACCUM 0.2X0.2 E140H 1489 none none none none 2 N/A -MAMA WAVE 11 STIS/FUV ACCUM 0.2X0.2 E140H 1489 none none none none 2 N/A -MAMA HD128621 12 STIS/CCD ACQ/PEA 0.2X0.09 G430M 3936 none none none none 2 N/A K HD128621 13 STIS/NUV ACCUM 0.2X0.09 E230H 2713 none none none none 2 N/A -MAMA WAVE 14 STIS/NUV ACCUM 0.2X0.09 E230H 2713 none none none none 2 N/A -MAMA 15963( 3) - 10-Jul-2019 14:54:24 - [ 8] Visit: 11 Visit Requirements: On Hold Comments: Additional Comments: 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 HD61421 STIS/CCD ACQ F25ND5 MIRROR 1 0.1 S (0.1 GS ACQ SCENARIO BASE1B3 S) Comments: Castelli-Kurucz Model F5V 6500 4.0, renormalized to vegamag = 0.37 in filter Johnson/V: SNR~110 in 0.1 s; time to saturation 0.9 s. ------------------------------------------------------------------------------------------------------------------------------------ 2 HD61421 STIS/FUV ACCUM 0.2X0.2 E140H 1307 WAVECAL=NO 1 2355 S SEQ 2-3 NON-INT -MAMA (2355 S) Comments: Input=special ETC file for ALP-CMI from previous STIS echelle spectra; exposure time= 2 ks at Si IV 139 nm gives peak SNR~30 (per resol) with 0.2x0.2 aperture. No LCR or GCR issues ------------------------------------------------------------------------------------------------------------------------------------ 3 WAVE STIS/FUV ACCUM 0.2X0.2 E140H 1307 1 45 S (45 -MAMA S) Comments: Deeper than normal wavecal to determine accurate zero-point shift. ------------------------------------------------------------------------------------------------------------------------------------ 4 WAVE STIS/FUV ACCUM 0.2X0.2 E140H 1489 1 45 S (45 SEQ 4-5 NON-INT -MAMA S) Comments: Deeper than normal wavecal to determine accurate zero-point shift. ------------------------------------------------------------------------------------------------------------------------------------ 5 HD61421 STIS/FUV ACCUM 0.2X0.2 E140H 1489 WAVECAL=NO 1 1386 S -MAMA (1386 S) Comments: Input=special ETC file for ALP-CMI from previous STIS echelle spectra; exposure time= 2 ks at Si IV 139 nm gives peak SNR~40 (per resol) with 0.2x0.2 aperture. No LCR or GCR issues. ------------------------------------------------------------------------------------------------------------------------------------ 6 HD61421 STIS/CCD ACQ/PEA 0.2X0.05N G430M 4451 1 0.1 S (0.1 K D S) Comments: Dispersed light peak-up for Castelli-Kurucz Model F5V 6500 4.0, renormalized to vegamag = 0.37 in filter Johnson/V: in 0.1 s, 477k e- with ND2 slit. ------------------------------------------------------------------------------------------------------------------------------------ 15963( 3) - 10-Jul-2019 14:54:24 - [ 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 ------------------------------------------------------------------------------------------------------------------------------------ 7 HD61421 STIS/NUV ACCUM 0.2X0.05N E230H 2713 WAVECAL=NO 1 500 S (500 SEQ 7-8 NON-INT -MAMA D S) Comments: Input=special ETC file for ALP-CMI from previous STIS echelle spectra; exposure time= 500 s at Mg II 279 nm gives peak SNR~30 (per resol) with ND2 aperture. No LCR or GCR issues. (ETC GCR ~60k; but, ~40k as measured from raw images in similar settings, also with ND2). ------------------------------------------------------------------------------------------------------------------------------------ 8 WAVE STIS/NUV ACCUM 0.2X0.09 E230H 2713 1 45 S (45 -MAMA S) Comments: Deeper than normal wavecal to determine accurate zero-point shift. ------------------------------------------------------------------------------------------------------------------------------------ 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 | ------------------------------------------------------------------------------------------------------------------------------------ HD61421 1 STIS/CCD ACQ F25ND5 MIRROR none none none none 1 N/A HD61421 2 STIS/FUV ACCUM 0.2X0.2 E140H 1307 none none none none 1 N/A -MAMA WAVE 3 STIS/FUV ACCUM 0.2X0.2 E140H 1307 none none none none 1 N/A -MAMA WAVE 4 STIS/FUV ACCUM 0.2X0.2 E140H 1489 none none none none 2 N/A -MAMA HD61421 5 STIS/FUV ACCUM 0.2X0.2 E140H 1489 none none none none 2 N/A -MAMA HD61421 6 STIS/CCD ACQ/PEA 0.2X0.05 G430M 4451 none none none none 2 N/A K ND HD61421 7 STIS/NUV ACCUM 0.2X0.05 E230H 2713 none none none none 2 N/A -MAMA ND WAVE 8 STIS/NUV ACCUM 0.2X0.09 E230H 2713 none none none none 2 N/A -MAMA 15963( 3) - 10-Jul-2019 14:54:24 - [ 10] Summary Form for Proposal 15963 Item Used in this proposal ------------------------------------------------------------------------------------------------------------------------------------ Apertures 0.2X0.05ND, 0.2X0.09, 0.2X0.2, 31X0.05NDC, F25ND5 ------------------------------------------------------------------------------------------------------------------------------------ Configurations STIS/CCD, STIS/FUV-MAMA, STIS/NUV-MAMA ------------------------------------------------------------------------------------------------------------------------------------ Opmodes ACCUM, ACQ, ACQ/PEAK ------------------------------------------------------------------------------------------------------------------------------------ Optional Parameters WAVECAL=NO ------------------------------------------------------------------------------------------------------------------------------------ Special Requirements CVZ, GS ACQ SCENARIO BASE1B3, ORIENT 0D TO 25 D, ORIENT 225D TO 359.99 D, ORIENT 45D TO 205 D, SEQ 10-11 NON-INT, SEQ 13-14 NON-INT, SEQ 2-3 NON-INT, SEQ 4-5 NON-INT, SEQ 5-6 NON-INT, SEQ 7-8 NON-INT, SEQ 8-9 NON-INT ------------------------------------------------------------------------------------------------------------------------------------ Spectral Elements E140H, E140M, E230H, G430M, MIRROR ------------------------------------------------------------------------------------------------------------------------------------ Target Names HD128620, HD128621, HD61421, WAVE ------------------------------------------------------------------------------------------------------------------------------------