15668( 4) - 16-Oct-2019 14:42:04 - [ 1] HUBBLE SPACE TELESCOPE OBSERVING PROGRAM 15668 Version: 4 Check-in Time: 16-Oct-2019 14:42:04 STScI Edit Number: 0 Title Monitoring and Imaging Classical Novae ------------------------------------------------------------------------------------ Type Cycle GO 26 ------------------------------------------------------------------------------------ Investigators Contact? PI: Dr. Justin D. Linford Associated Universities, Inc. Y CoI: Dr. Laura Chomiuk Michigan State University N CoI: Dr. Jennifer L Sokoloski Columbia University in the City of New Y York CoI: Dr. Amy Mioduszewski Associated Universities, Inc. N CoI: Dr. Michael Rupen Dominion Astrophysical Observatory N CoI: Dr. Stephen S. Lawrence Hofstra University Y CoI: Dr. Koji Mukai NASA Goddard Space Flight Center N CoI: Mr. Adam Kawash Michigan State University N CoI: Joe Bright University of Oxford N CoI: Dr. Alexander Van der Horst George Washington University N CoI: Elias Aydi Michigan State University N ------------------------------------------------------------------------------------ Abstract We request 36.0 hours of VLA time during NRAO semester 2019A: 12.0 hours (4 targets, 8 epochs total, 1.5 hours per epoch) during B-configuration to build the radio light curves of 4 classical novae and 24.0 hours (5 targets, 8 epochs total, 3.0 hours per epoch) during A-configuration to image the expanding thermal ejecta of 5 novae. These VLA observations are crucial to completing our study of these novae, and to testing our theory of gamma-ray production in novae. The high angular resolution during A-configuration is essential to the interpretation of the radio light curves and to learn how the nova morphologies have evolved since the previous A-configuration in 2018. We further request 4 orbits of Hubble Space Telescope (HST) time to image optically-thin line emission and to obtain spatially-resolved spectroscopic data on V392 Per. These HST images will provide information about diffuse material in the ejecta that is not detectable by VLA and provide more details on the kinematics of the explosions at angular resolutions comparable to the VLA in A-configuration, tying together the radio and optical data sets on this source. ------------------------------------------------------------------------------------ Observations Description ------------------------ This project is a coordinated campaign to use the highest-resolutions in both VLA interferometry and HST direct and spectral imaging to study the expanding thermal ejecta of a recent classical nova that was detected in gamma-ray emission. The goal of this proposal is to identify the differences between gamma-ray quiet and gamma-ray bright novae that explain their discrepant gamma-ray luminosities. Within a larger program monitoring the brightness and expansion of multiple recent novae, we have been awarded 3.0 hours of JVLA A-configuration time to spatially resolve and monitor the gamma-bright classical novae V392 Peg = Nova Peg 2018, along with four orbits of HST imaging 15668( 4) - 16-Oct-2019 14:42:04 - [ 2] and spectroscopy described herein. We will use WFC3 to obtain narrow-band [OIII] and Halpha+[NII] images, with the F502N and F657N filters respectively, of the young remnant around gamma-ray bright nova V392 Peg. The WFC3-UVIS-DITHER-BOX pattern will be used to take dithered images in each filter so that we can remove cosmic-ray and CCD artifacts as well as drizzle the images to improved spatial resolution of at least 0.03"/pixel. We will also use STIS, with the G430L grating, to obtain a spatially resolved spectrum. For the STIS observation, we will use a 4-point STIS-ALONG-SLIT dither pattern with CR-SPLIT=2 readouts at each dither point. Including one such exposure pattern in each of two spectroscopic orbits allows us to build up a total of approximately 3400 seconds of spectral exposure in approximately 400 second sub-exposures. We have found that the large number of STIS sub-exposures are necessary and minimally sufficient to reliably filter the large number of bad pixels found on the STIS detector. The goal of the WFC3 imaging is to detect, or place meaningful contraints on, emission from substracture within the remnant, for comparison with radio and HST images of gamma-ray-bright novae. The goal of the STIS specroscopy is to provide 3-D kinematics of the V392 Per remnant in [O III] and H-beta, as well as evidence for resolved structure in high-ionization-state lines such as [NeV] and [FeVII] that tend to trace shocks. We will use both imaging and spectroscopy to obtain (or set a minimum distance for) expansion parallax distance estimates to V392 Per. As V392 Per is fading rapidly to its quiescent brightness level, we request that the singlet WFC3 imaging orbit in Visit 01 be scheduled as quickly as possible in 2019. Based on whether or not the remnant is resolved, and its relative brightness in F502N and F657N, we will adjust the observing plans in Visits 02 and 03. For example, if the resolved remnant is only bright in F657N, we might drop the F502N filter from Visit 02 and dedicate the full orbit to F657N, and might request switching from the G430L grating to G750L in Visit 03. If the remnant is sufficiently bright and clearly resoved in our Visit 01 imaging, we might combine Visits 02 and 03 into a single, 3-orbit visit of STIS spectroscopy to get better signal-to-noise in fainter emission lines. Within Visit 01, we take a single WFC3-UVIS-DITHER-LINE sequence of three 10-second images in each of F502N and F657N, as insurance against a large distance to V392 Per and an as-yet spatially unresolved remant. Given the most recent AAVSO V-band photometry (Dec 2018) and ARAS optical spectroscopy (June 2018), and conservatively assuming that all the V-band flux is in [O III] 4959, 5007 line emission and all the R-band flux is in the H-alpha line, the WFC3 XTC suggests that a point source should not saturate in 10 seconds in either filter. If the central pixels of V392 Per do saturate in our longer 155-second images, then we will want to test the short, 10-second images against theoretical and empirical WFC3 PSFs to see if the object is marginally resolved. As such, and as we have done in past nova observations, we request the use of BLADE=A special requirement with the two sets of 10-second exposures in Visit 01 to minimize vibrations from the shutter. ------------------------------------------------------------------------------------ 15668( 4) - 16-Oct-2019 14:42:04 - [ 3] TARGET LIST Fixed Targets ------------------------------------------------------------------------------------------------------------------------------------ Tar| Target | Target | Target |Coord | Radial | Flux data No | Name | Description | Position |Eqnx | Vel. | ------------------------------------------------------------------------------------------------------------------------------------ 1 V-V392-PER EXT-STAR, CIRCUMSTELLAR RA=04H43M21.3695S +/- 0.001", J2000 V = 15.1 +/- 1.0 B=15.7, R=14.5 MATTER, CLASSICAL NOVA, DEC=+47D21'25.87" +/- 0.001" DWARF NOVA, EJECTA, SHELL Reference Frame: ICRS Extended: YES Comments: V-band flux of 15.1+/-0.1 from an AAVSO CCD measurement on 2018/12/03. At the average, fairly linear fading rate 0.00653 mag/day in V from August 2018 to December 2018 seen in AAVSO data, it would fade by roughly 2.5 magnitudes more in the coming year, through December 2019. However V392 Per has a typical quiescent (outside of dwarf nova outburst) brightness of V = 16.0 +/-0.5, and has rarely been below V = 17.0 in the last 20 years. B & R magnitudes from AAVSO data in late 2018 as well; recent (B-V)=+0.6 and (V-R)=+0.6 Epoch of Position RA proper motion (seconds of time/yr) DEC Proper Motion (arcsec/yr) Annual Parallax (arcsec) 2015.5 1.899346940322574E-5 -0.0017490000000000001 2.573E-4 ------------------------------------------------------------------------------------------------------------------------------------ 15668( 4) - 16-Oct-2019 14:42:04 - [ 4] Patterns ------------------------------------------------------------------------------------------------------------------------------------ Pattern_Number: 1 Primary_Pattern Secondary_Pattern Pattern_Type WFC3-UVIS-DITHER-BOX Pattern_Purpose DITHER Number_Of_Points 4 Point_Spacing 0.519 Line_Spacing 0.336 Coordinate_Frame POS-TARG Pattern_Orient 23.884 Angle_Between_Sides 81.785 Center_Pattern NO Pattern_Comments: Standard WFC3-UVIS-DITHER-BOX pattern scaled up 3.0x in size to dither short exposures for cosmic ray & bad pixels, and to move potentially saturated/bled central pixels with larger column separations ------------------------------------------------------------------------------------------------------------------------------------ Pattern_Number: 3 Primary_Pattern Secondary_Pattern Pattern_Type WFC3-UVIS-DITHER-LINE-3PT Pattern_Purpose DITHER Number_Of_Points 3 Point_Spacing 0.135 Line_Spacing Coordinate_Frame POS-TARG Pattern_Orient 46.84 Angle_Between_Sides Center_Pattern NO Pattern_Comments: Standard WFC3-UVIS-DITHER-LINE-3PT pattern to dither shortest WFC3 exposures for cosmic ray & bad pixels, and to move potentially saturated/bled central pixels to new colums. ------------------------------------------------------------------------------------------------------------------------------------ Pattern_Number: 2 Primary_Pattern Secondary_Pattern Pattern_Type STIS-ALONG-SLIT Pattern_Purpose DITHER Number_Of_Points 4 Point_Spacing 0.5332 Line_Spacing Coordinate_Frame POS-TARG Pattern_Orient 90.0 Angle_Between_Sides Center_Pattern YES Pattern_Comments: STIS spectroscopic dither pattern of four pointings spaced 10.5 pixels apart (with CRSPLIT=2 at each pointing) to provide 8 exposures with which to remove cosmic rays and CCD artifacts, and to be drizzled to improve spatial resolution. ------------------------------------------------------------------------------------------------------------------------------------ 15668( 4) - 16-Oct-2019 14:42:04 - [ 5] Visit: 01 (Visit 01: 1 orbit of WFC3 imaging on V392 Per) Visit Requirements: SCHED 100% On Hold Comments: Additional Comments: The purpose of Visit 01 is to take narrow-band WFC3 images of the expanding remnant of Nova Persei 2018 = V392 Per, to pair with our awarded VLA A-configuration radio interfermetry to be taken in the 2019A semester during A-configuration (2019 Aug 2 - 2019 Oct 28). This visit should be scheduled as soon as possible, and before Visits 02 & 03, in order to provide preview imaging to determine the relative brightness of the nebular ejecta, its resolved dimensions (if any) and to select a major axis for optimal slit orientation for the STIS spectra in Visit 03 to follow. V392 Per is fading to its quiescent level quickly, so we would like this initial visit to be scheduled as quickly as is feasible. [The WFC3 scheduling window is completely open until solar proximity ends it on 2019-Apr-21.] This imaging visit is for one orbit, for a total of ~620 seconds in F502N ( [O III] ) and ~620 seconds in F657N ( Halpha+[N II] ). One science goal is to use WFC3 image expansion proper motion and STIS spectra to determine an expansion parallax distance to V392 Per. There is a slight chance it will still be an unresolved point source in the WFC3 imaging. Hence the series of very short, yet well-dithered exposures to insure against saturation and yet provide a good test of a partially-resolved PSF. The longer exposures are to search for faint nebulosity out to 0.5 arcsec (at the expected size/surface brightness). Exposure times estimated from the ETC and by scaling our past F502N and F657N images of V339 Del and V959 Mon up to the anticipated maximum brightness of V392 Per in early-2019. In order to record the sharpest PSF and best test whether the object is marginally-resolved in the shorter exposures, we request the use of the BLADE=A shutter option. If newer ground-based photometry or spectra indicate dramatic or unexpected changes, we may request an adjustment of exposure times within this orbit. Flash levels are set using the minimum ETC recommendation that did not trigger a warning flag. If the nebular ejecta are unresolved or if they are sufficiently bright that this single orbit is sufficient for our morphology and expansion parallax science goals, we may request that the single orbit for Visit 02 be merged into the STIS spectroscopy Visit 03. If the nebular ejecta are detected in only one of the two filters, we may request that the null filter be dropped from Visit 02 and all exposure time be dedicted to the successful filter. 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-V392-PER WFC3/UVI ACCUM UVIS2-C1K F502N FLASH=12, BLADE=A 1 10.0 S (30 PATTERN 3 1 S 1C-SUB S) Comments: Post-flash = 12 e- based on ETC WFC3UVIS.im.1306803 We use a single iteration of the 3-point WFC3-UVIS-DITHER-LINE-3PT with short 10.0 sec integrations at each point to provide insurance against saturation. Conservatively, 1) if the nova is an unresolved point source, and 2) if the V=15.1 flux levels detected by recent AAVSO observers is entirely [O III] 4959, 5007 line emission, then 10 second exposures should not saturate, based on calculations using on WFC3UVIS.im.1306803 ------------------------------------------------------------------------------------------------------------------------------------ 15668( 4) - 16-Oct-2019 14:42:04 - [ 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 ------------------------------------------------------------------------------------------------------------------------------------ 2 V-V392-PER WFC3/UVI ACCUM UVIS2-C1K F502N FLASH=12 1 155.0 S PATTERN 1 2 S 1C-SUB (620 S) Comments: Post-flash = 12 e- based on WFC3UVIS.im.1306803 We use a single iteration of the 4-point WFC3-UVIS-DITHER-BOX with 3x expanded throws with 155 second subexposures: assuming a resolved spatial distribution for the [O III] line flux, at V=15.1 these should not saturate the brightest few pixels of central point source in F502N; but if it does the larger dither pattern will help keep saturated and bloomed pixels/columns separated. Accurate photometry and PSF analysis of the central point source will then come from the shorter exposures. Estimates based on the ETC WFC3UVIS.im.1306803 and on scaling our previous images of V959 Mon and T Pyx. ------------------------------------------------------------------------------------------------------------------------------------ 3 V-V392-PER WFC3/UVI ACCUM UVIS2-C1K F657N FLASH=12, BLADE=A 1 10.0 S (30 PATTERN 3 3 S 1C-SUB S) Comments: Post-flash = 12 e- based on ETC WFC3UVIS.im.1307502 We use a single iteration of the 3-point WFC3-UVIS-DITHER-LINE-3PT with short 10.0 sec integrations at each point to provide insurance against saturation. Conservatively, 1) if the nova is an unresolved point source, and 2) if the V=15.1 flux levels detected by recent AAVSO observers is entirely H-alpha line emission, then 10 second exposures should not saturate, based on calculations using on WFC3UVIS.im.1307502 ------------------------------------------------------------------------------------------------------------------------------------ 15668( 4) - 16-Oct-2019 14:42:04 - [ 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 ------------------------------------------------------------------------------------------------------------------------------------ 4 V-V392-PER WFC3/UVI ACCUM UVIS2-C1K F657N FLASH=12 1 155.0 S PATTERN 1 4 S 1C-SUB (620 S) Comments: Post-flash = 12 e- based on WFC3UVIS.im.1307502 We use a single iteration of the 4-point WFC3-UVIS-DITHER-BOX with 3x expanded throws with 155 second subexposures: assuming a resolved spatial distribution for the H-alpha line flux, at V=14.5 these should not saturate the brightest few pixels of central point source in F502N; but if it does, the larger dither pattern will help keep saturated and bloomed pixels/columns separated. Accurate photometry and PSF analysis of the central point source will then come from the shorter exposures. Estimates based on the ETC WFC3UVIS.im.1307502 and on scaling our previous images of V959 Mon and T Pyx. ------------------------------------------------------------------------------------------------------------------------------------ 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-V392-PER 1 WFC3/UVI ACCUM UVIS2-C1 F502N 1 none none none 1 N/A S K1C-SUB V-V392-PER 1 WFC3/UVI ACCUM UVIS2-C1 F502N 2 none none none 1 N/A S K1C-SUB V-V392-PER 1 WFC3/UVI ACCUM UVIS2-C1 F502N 3 none none none 1 N/A S K1C-SUB V-V392-PER 2 WFC3/UVI ACCUM UVIS2-C1 F502N 1 none none none 1 N/A S K1C-SUB V-V392-PER 2 WFC3/UVI ACCUM UVIS2-C1 F502N 2 none none none 1 N/A S K1C-SUB V-V392-PER 2 WFC3/UVI ACCUM UVIS2-C1 F502N 3 none none none 1 N/A S K1C-SUB V-V392-PER 2 WFC3/UVI ACCUM UVIS2-C1 F502N 4 none none none 1 N/A S K1C-SUB V-V392-PER 3 WFC3/UVI ACCUM UVIS2-C1 F657N 1 none none none 1 N/A S K1C-SUB V-V392-PER 3 WFC3/UVI ACCUM UVIS2-C1 F657N 2 none none none 1 N/A S K1C-SUB V-V392-PER 3 WFC3/UVI ACCUM UVIS2-C1 F657N 3 none none none 1 N/A S K1C-SUB 15668( 4) - 16-Oct-2019 14:42:04 - [ 8] 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-V392-PER 4 WFC3/UVI ACCUM UVIS2-C1 F657N 1 none none none 1 N/A S K1C-SUB V-V392-PER 4 WFC3/UVI ACCUM UVIS2-C1 F657N 2 none none none 1 N/A S K1C-SUB V-V392-PER 4 WFC3/UVI ACCUM UVIS2-C1 F657N 3 none none none 1 N/A S K1C-SUB V-V392-PER 4 WFC3/UVI ACCUM UVIS2-C1 F657N 4 none none none 1 N/A S K1C-SUB 15668( 4) - 16-Oct-2019 14:42:04 - [ 9] Visit: 02 (Visit 02: 1 orbit of WFC3 imaging on V392 Per) Visit Requirements: SCHED 100%; GROUP 02, 03 WITHIN 15D On Hold Comments: Additional Comments: The purpose of Visit 02 is to take deeper WFC3 images of the expanding remnant of Nova Persei 2018 = V392 Per, following the preliminary results of Visit 01. If the remnant is resolved and detectable in both F502N and F656N, we will image it again in both filters. If it is only detectable in one filter we will likely restructure this orbit after Visit 01 is executed and drop the null filter in order to commit all of the observing time to the successful filter. If V392 is still an unresolved point source, or if the imaging of Visit 01 is sufficiently bright and resolved for our morphological and expansion parallax goals, we may request that this orbit be merged into the STIS spectroscopy in Visit 03. Depending on the timing needed to align the STIS slit PA with the major axis of the remnant, we might request that this orbit be scheduled contemporaneous with Visit 03. As initially structured, this imaging visit is for one orbit, for a total of ~960 seconds in F502N ( [O III] ) and ~960 seconds in F657N ( Halpha+[N II] ). One science goal is to use WFC3 image expansion proper motion and STIS spectra to determine an expansion parallax distance to V392 Per. Initial exposure times estimated from the ETC and by scaling our past F502N and F657N images of V339 Del and V959 Mon to the anticipated brightness of V392 Per in early-2019. We will adjust the filter selection and exposure times as needed after Visit 01 executes. Flash levels are set using the minimum ETC recommendation that did not trigger a warning flag. NOTE ADDED 10/15/2019: After reviewing WFC3 imaging from Visit 01 and our contemporaneous VLA radio imaging, we note that the radio remnant has FWHM ~0.2" and is extended along an axis with PA=150 or 330 deg E of N. We are therefore requesting that the STIS spectroscopy in Visit 03 have this same approximate PA (150+/-20 or 330+/-20 degrees), corresponding to ORIENT=175--215 or 355--35 degrees and that this visit (02) be taken within 15 days of Visit 03. Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 15668( 4) - 16-Oct-2019 14:42:04 - [ 10] 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-V392-PER WFC3/UVI ACCUM UVIS2-C1K F502N FLASH=12 1 280.0 S PATTERN 1 1 S 1C-SUB (1120 S) Comments: Post-flash = 12 e- based on WFC3UVIS.im.1306803 We use a single iteration of the 4-point WFC3-UVIS-DITHER-BOX with 3x expanded throws with 160 second subexposures: at V=15.1 these should not saturate the brightest few pixels of central point source in F502N; but if it does the larger dither pattern will help keep saturated and bloomed pixels/columns separated. Estimates based on the ETC WFC3UVIS.im.1306803 and on scaling our previous images of V959 Mon and T Pyx. NOTE ADDED 10/15/2019: Analysis of F502N exposures from Visit 01 suggest that, if the source does not fade in this filter, a maximum safe exposure time is around 600 seconds, so using 280 sec is fine (see WFC3UVIS.im.1385513) ------------------------------------------------------------------------------------------------------------------------------------ 2 V-V392-PER WFC3/UVI ACCUM UVIS2-C1K F657N FLASH=12 1 200.0 S PATTERN 1 2 S 1C-SUB (800 S) Comments: Post-flash = 12 e- based on WFC3UVIS.im.1307502 We use a single iteration of the 4-point WFC3-UVIS-DITHER-BOX with 3x expanded throws with 160 second subexposures. Scaling from [O III] to H-alpha using previous HST spectra of young nova remanants, these exposures are unlikely to saturate at the central point source in F657N; but if it does the larger dither pattern will help keep saturated and bloomed pixels/columns separated. Estimates based on the ETC WFC3UVIS.im.1307502 and on scaling our previous images of V339 Del and V5668 Sgr. NOTE ADDED 10/15/2019: Analysis of F657N exposures from Visit 01 suggest that, if the source does not fade in this filter, a maximum safe exposure time is around 200 seconds, giving max single pixel counts of 56, 000 electrons (see WFC3UVIS.im.1385510) ------------------------------------------------------------------------------------------------------------------------------------ 15668( 4) - 16-Oct-2019 14:42:04 - [ 11] 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-V392-PER 1 WFC3/UVI ACCUM UVIS2-C1 F502N 1 none none none 1 N/A S K1C-SUB V-V392-PER 1 WFC3/UVI ACCUM UVIS2-C1 F502N 2 none none none 1 N/A S K1C-SUB V-V392-PER 1 WFC3/UVI ACCUM UVIS2-C1 F502N 3 none none none 1 N/A S K1C-SUB V-V392-PER 1 WFC3/UVI ACCUM UVIS2-C1 F502N 4 none none none 1 N/A S K1C-SUB V-V392-PER 2 WFC3/UVI ACCUM UVIS2-C1 F657N 1 none none none 1 N/A S K1C-SUB V-V392-PER 2 WFC3/UVI ACCUM UVIS2-C1 F657N 2 none none none 1 N/A S K1C-SUB V-V392-PER 2 WFC3/UVI ACCUM UVIS2-C1 F657N 3 none none none 1 N/A S K1C-SUB V-V392-PER 2 WFC3/UVI ACCUM UVIS2-C1 F657N 4 none none none 1 N/A S K1C-SUB 15668( 4) - 16-Oct-2019 14:42:04 - [ 12] Visit: 03 (Visit 03: 2 orbits of STIS CCD G430L spectra on V392 Per) Visit Requirements: SCHED 100%; ORIENT 175D TO 215 D; ORIENT 355D TO 35 D; GROUP 03, 02 WITHIN 15D On Hold Comments: Additional Comments: The purpose of Visit 03 is to use 2 orbits to take STIS CCD G430L spectra of the expanding and fading remnant of Nova Persei 2018 = V392 Per, after the remnant has been imaged by the WFC3 imaging Visit 01. Ideally, we would like to use the WFC3 imaging from Visit 01 to identify a major axis in the remnant to use as an optimal slit PA for the STIS spectra here in Visit 03; hence Orient Ranges will likely be added after Visit 01 is executed. As the determination of this broad roll angle range and scheduling window will need to wait until the Visit 01 WFC3 imaging is taken and then quickly analyzed, our current request for this visit to follow Visit 01 by at least 30 days, but not more than 120 days. While a specific PA to match the major axis is preferrable, we will provide up to +/-15 degrees of slop in our follow up request. The 120 day window and 30-degree roll range of should give plenty of scheduling opportunities, but if it does not, we are certainly willing to drop the PA requirement and take spectra at any arbitrary angle, or aligned with the minor axis. If the imaging in Visit 01 showed that the remnant was not visible in F502N [O III] emission, but was still strong in F657N H-alpha emission, we would request the abiility to switch the STIS grating in Visit 03 from G430L to G750L. This spectroscopic visit is for a total of two orbits, for a total of ~1400+2040=3440 seconds in STIS CCD G430L. After analyzing the imaging in Visit 01, we may need to request an adjustment of exposure times within this orbit. If the WFC3 imaging in Visit 01 show that the nebular ejecta are unresolved or if they are sufficiently bright that the single WFC3 orbit is sufficient for our morphology and expansion parallax science goals, we may request that the single orbit for Visit 02 be merged into the STIS spectroscopy here in Visit 03. NOTE ADDED 10/15/2019: After reviewing WFC3 imaging from Visit 01 and our contemporaneous VLA radio imaging, we note that the radio remnant has FWHM ~0.2" and is extended along an axis with PA=150 or 330 deg E of N. We are therefore requesting that the STIS spectroscopy in this Visit (03) have this same approximate PA (150+/-20 or 330+/-20 degrees), corresponding to ORIENT=175--215 or 355--35 odegrees and that the WFC3 imaging in Visit 02 be taken within 15 days of this visit (03). Exposures ------------------------------------------------------------------------------------------------------------------------------------ Exp | Target | Instr | Oper. | Aper |Spectral|Central| Optional |Num| Time | Special Num | Name | Config | Mode | or FOV |Element |Waveln.| Parameters |Exp| (Total) | Requirements ------------------------------------------------------------------------------------------------------------------------------------ 15668( 4) - 16-Oct-2019 14:42:04 - [ 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 ------------------------------------------------------------------------------------------------------------------------------------ 1 V-V392-PER STIS/CCD ACQ 50CCD MIRROR ACQTYPE=DIFFUSE, CHECKBOX=5, 1 3 S (3 S) DIFFUSE-CENTER=FLUX-CENTROID Comments: Acquistion imaging for V392 Per, which we expect to be a faint point source surrounded by small-scale (<0.5 arcsec) bright nebular structures of higher intensity. The most current AAVSO CCD photometry of V392 Per has it at V=15.1, R=14.5, likely dominated by the [O III] 4959, 5007 and H-alpha lines. An exposure time of 3 seconds should be below saturation, even assuming the worst case scenario of all of the flux being concentrated in an unresolved point source and due entirely to the line emission. Even if the ACQ exposure mildly saturates, we are using the 52x2 slit, so a small aperture centering error is not critical. Additionally, We will be able to use the WFC3 imaging from the preceding Visit 01 to determine whether the 3-second ACQ and ACQ-PEAK will be suitable, or if it needs to be shortened or lengthened, or if an OFFSET from a nearby star will be needed. ------------------------------------------------------------------------------------------------------------------------------------ 2 V-V392-PER STIS/CCD ACQ/PEA 52X0.1E1 MIRROR 1 3 S (3 S) K Comments: Peak-up imaging for V392 Per, which we expect to be a faint point source surrounded by small-scale (<0.5 arcsec) bright nebular structures of higher intensity. The most current AAVSO CCD photometry of V392 Per has it at V=15.1, R=14.5, likely dominated by the [O III] 4959, 5007 and H-alpha lines. An exposure time of 3 seconds should be below saturation, even assuming the worst case scenario of all of the flux being concentrated in an unresolved point source and due entirely to the line emission. Even if the ACQ exposure mildly saturates, we are using the 52x2 slit, so a small aperture centering error is not critical. Additionally, we will be able to use the WFC3 imaging from the preceding Visit 01 to determine whether this 3-second ACQ and ACQ-PEAK will be suitable, or if it needs to be shortened or lengthened, or if an OFFSET from a nearby star will be needed. 15668( 4) - 16-Oct-2019 14:42:04 - [ 14] 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-V392-PER STIS/CCD ACCUM 52X2E1 G430L 4300 CR-SPLIT=2 1 335 S PATTERN 2 3 (1340 S) Comments: We use a CR-SPLIT=2 at each of the 4-points of a centered STIS-ALONG-SLIT dither pattern with 0.5332 arcsec = 10.5 pixel steps, here with 350 second subexposures (CRSPLIT=2 into 175 seconds each). In combination with the multiple orbits, the half-integer pixel step size will allow us to flag and remove cosmic rays, bad pixels and likely increase the STIS spatial resolution. Exposure estimates based on the ETC and on scaling our previous spectra of V339 Del and V959 Mon. NOTE ADDED 10/15/2019: Analysis of WFC3 F502N exposures from Visit 01 suggest that, if the source does not fade in this filter, a maximum safe exposure time is around 1, 200 seconds, so the 502 sec, CR-SPLIT=2 exposures here should be well below saturation. (see STIS.sp.1385520) ------------------------------------------------------------------------------------------------------------------------------------ 4 V-V392-PER STIS/CCD ACCUM 52X2E1 G430L 4300 CR-SPLIT=2 1 502 S PATTERN 2 4 (2008 S) Comments: We use a CR-SPLIT=2 at each of the 4-points of a centered STIS-ALONG-SLIT dither pattern with 0.5332 arcsec = 10.5 pixel steps, here with 510 second subexposures (CRSPLIT=2 into 255 seconds each). In combination with the multiple orbits, the half-integer pixel step size will allow us to flag and remove cosmic rays, bad pixels and likely increase the STIS spatial resolution. Exposure estimates based on the ETC and on scaling our previous spectra of V339 Del and V959 Mon. NOTE ADDED 10/15/2019: Analysis of WFC3 F502N exposures from Visit 01 suggest that, if the source does not fade in this filter, a maximum safe exposure time is around 1, 200 seconds, so the 502 sec, CR-SPLIT=2 exposures here should be well below saturation. (see STIS.sp.1385520) ------------------------------------------------------------------------------------------------------------------------------------ 15668( 4) - 16-Oct-2019 14:42:04 - [ 15] 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-V392-PER 1 STIS/CCD ACQ 50CCD MIRROR none none none none 1 N/A V-V392-PER 2 STIS/CCD ACQ/PEA 52X0.1E1 MIRROR none none none none 1 N/A K V-V392-PER 3 STIS/CCD ACCUM 52X2E1 G430L 4300 1 none none 1 1 N/A V-V392-PER 3 STIS/CCD ACCUM 52X2E1 G430L 4300 1 none none 2 1 N/A V-V392-PER 3 STIS/CCD ACCUM 52X2E1 G430L 4300 2 none none 1 1 N/A V-V392-PER 3 STIS/CCD ACCUM 52X2E1 G430L 4300 2 none none 2 1 N/A V-V392-PER 3 STIS/CCD ACCUM 52X2E1 G430L 4300 3 none none 1 1 N/A V-V392-PER 3 STIS/CCD ACCUM 52X2E1 G430L 4300 3 none none 2 1 N/A V-V392-PER 3 STIS/CCD ACCUM 52X2E1 G430L 4300 4 none none 1 1 N/A V-V392-PER 3 STIS/CCD ACCUM 52X2E1 G430L 4300 4 none none 2 1 N/A V-V392-PER 4 STIS/CCD ACCUM 52X2E1 G430L 4300 1 none none 1 2 N/A V-V392-PER 4 STIS/CCD ACCUM 52X2E1 G430L 4300 1 none none 2 2 N/A V-V392-PER 4 STIS/CCD ACCUM 52X2E1 G430L 4300 2 none none 1 2 N/A V-V392-PER 4 STIS/CCD ACCUM 52X2E1 G430L 4300 2 none none 2 2 N/A V-V392-PER 4 STIS/CCD ACCUM 52X2E1 G430L 4300 3 none none 1 2 N/A V-V392-PER 4 STIS/CCD ACCUM 52X2E1 G430L 4300 3 none none 2 2 N/A V-V392-PER 4 STIS/CCD ACCUM 52X2E1 G430L 4300 4 none none 1 2 N/A V-V392-PER 4 STIS/CCD ACCUM 52X2E1 G430L 4300 4 none none 2 2 N/A 15668( 4) - 16-Oct-2019 14:42:04 - [ 16] Summary Form for Proposal 15668 Item Used in this proposal ------------------------------------------------------------------------------------------------------------------------------------ Apertures 50CCD, 52X0.1E1, 52X2E1, UVIS2-C1K1C-SUB ------------------------------------------------------------------------------------------------------------------------------------ Configurations STIS/CCD, WFC3/UVIS ------------------------------------------------------------------------------------------------------------------------------------ Opmodes ACCUM, ACQ, ACQ/PEAK ------------------------------------------------------------------------------------------------------------------------------------ Optional Parameters ACQTYPE=DIFFUSE, BLADE=A, CHECKBOX=5, CR-SPLIT=2, DIFFUSE-CENTER=FLUX-CENTROID, FLASH=12 ------------------------------------------------------------------------------------------------------------------------------------ Special Requirements GROUP 02, 03 WITHIN 15D, GROUP 03, 02 WITHIN 15D, ORIENT 175D TO 215 D, ORIENT 355D TO 35 D, PATTERN 1 1, PATTERN 1 2, PATTERN 1 4, PATTERN 2 3, PATTERN 2 4, PATTERN 3 1, PATTERN 3 3, SCHED 100% ------------------------------------------------------------------------------------------------------------------------------------ Spectral Elements F502N, F657N, G430L, MIRROR ------------------------------------------------------------------------------------------------------------------------------------ Target Names V-V392-PER ------------------------------------------------------------------------------------------------------------------------------------