14100( 2) - 06-Jul-2015 10:35:59 - [ 1] HUBBLE SPACE TELESCOPE OBSERVING PROGRAM 14100 Version: 2 Check-in Time: 06-Jul-2015 10:35:59 STScI Edit Number: 0 Title A Direct Imaging Experiment to Determine the Origin of H2 Emission from M dwarf Exoplanetary Systems ------------------------------------------------------------------------------------ Type Cycle GO 23 ------------------------------------------------------------------------------------ Investigators Contact? PI: Dr. Kevin France University of Colorado at Boulder Y CoI: Dr. Aki Roberge NASA Goddard Space Flight Center N CoI: R. O. Parke Loyd University of Colorado at Boulder N CoI: Dr. Rob Wittenmyer University of New South Wales N CoI: Prof. John T. Stocke University of Colorado at Boulder N ------------------------------------------------------------------------------------ Abstract Recent HST-COS observations of M dwarfs hosting exoplanetary systems have detected photo-excited H2 emission in these environments, in contrast to previous HST-STIS and IUE observations of non-planet hosting M dwarfs where no H2 emission is observed. Three plausible origins for this emission include: 1) starspots or the stellar photosphere, 2) the heated atmospheres of orbiting planets, or 3) a second generation circumstellar disk produced by atmospheric mass-loss from the planets in these systems. While direct imaging of exoplanets is extremely challenging in the visible/IR owing to the large star/planet contrast ratio, we will take advantage of the favorable star/planet contrast ratio in the FUV to ascertain the origin of the H2 emission. This proposal will use multi-band FUV imaging with ACS/SBC to directly image one well-positioned M dwarf exoplanetary system to measure the distribution of the H2 gas: GJ 832, at d = 4.9 pc with a Jovian-mass exoplanet at 0.7 arcseconds separation. Using a combination of F122M, F140LP, and F165LP imaging, we can isolate the relative spatial distributions of Lyman-alpha, C IV, and H2 providing a stellar reference (C IV from the stellar atmosphere) and two tracers that may originate from exoplanets or their evaporated atmospheres (Lyman-alpha and H2). A direct H2 image of GJ 832b or a circumstellar disk would demonstrate a new observational tool for the detection of planetary systems orbiting low-mass stars and possibly a new means of measuring atmospheric mass loss rates. ------------------------------------------------------------------------------------ Observations Description ------------------------ The H2 Lyman band systems are photoexcited ("pumped") by stellar Ly photons and have transitions that span the FUV bandpass from 1150 - 1650 Ang, but the brightest lines reside between 1430 - 1510 Ang. Therefore, in order to image the spatial origin of the H2 in the GJ 832 system, we wish to isolate this spectral region. In addition, recent work has explored the spectral characteristics of H I Ly emission from hot Jupiters (Menager et al. 2013), produced mainly by resonant scattering of the stellar emission line. To fully understand the H2 excitation conditions, we wish to know the spatial 14100( 2) - 06-Jul-2015 10:35:59 - [ 2] distribution of both the Ly pumping radiation and the H2 emission, therefore we also require Ly imaging of the system. Finally, as a control, we wish to isolate one spectral tracer that has no exoplanetary contribution: C IV emission that is only produced in T ~ 10^5 K gas in the stellar atmosphere. All three of these emissions can be isolated using filters on the ACS/SBC. F122M is a dedicated LyA filter. Combining the long-pass FUV filters on ACS is a well-characterized technique for creating custom filter bandpasses for FUV imaging (e.g., Hayes et al. 2013; Fleming et al. 2015), and we propose to apply this technique to isolate H2 and C IV emissions from the GJ 832 system. Taking the average GJ 832 FUV spectrum, and using the STScI on-line exposure time calculator, we find that a S/N = 100 per angular resolution element F122M Ly image of GJ 832 can be acquired in Texp = 4500 sec. The remaining ACS/SBC filters are long-pass and include a significant red leak, so a filter dif- ference technique is required to isolate a specific FUV bandpass. Using the filter difference D150 = F140LP - F165LP, we can quantify the spectral contributions to this effective narrow-band image from our existing COS spectra: Si IV (9.5 %), C IV (34.9 %), He II (21.1 %), and the 1430 - 1520 Ang H2 region (14.6 %). The D150 band covers both hot gas and H2 emission, however the hot gas emission (Si IV, C IV, and HeII) arises exclusively in the stellar atmosphere and therefore any detection at the position of the planet in D150 will be attributable to H2. This spectral assignment will be verified using our existing spectroscopy and potential Ly detection at the planetary position. We note that while the H2 region contains the highest density of photoexcited H2 lines per wavelength, this 14.6% is contaminated by weak S I and N I emission lines from the lower chromosphere of the parent star. The S I and N I make up approximately one-third of the 1430 - 1510 Ang flux. Factoring in the contribution from the neutral metal lines, and taking the count outputs from the on-line ACS exposure time calculator, we estimate that if the entire H2 signal originates from GJ 832b, this signal will be detected at S/N(H2) = (X*0.146*(S/N140)^2) / 14100( 2) - 06-Jul-2015 10:35:59 - [ 3] SQRT((S/N140)^2 + (S/N165)^2), where 0.146 is the 14.6% H2 contribution, X is the 1430 - 1510 Ang flux contributed by H2 fluorescence (X ~ 2/3, measured from the COS data, see previous paragraph), and S/N140 and S/N165 are the F140LP and F165LP signal-to-noise ratios, respectively. Therefore with S/N = 100 in both the F140LP and F165LP images, we expect to detect GJ 832b in H2 to a 7- significance if all of the molecular emission originates on the planet. Similarly, if the molecular emission originates in a second generation disk, we will detect the total emission from the disk using photometric annuli, although the significance will be reduced to 3 - 5 sigma , depending on the angular extent of the disk. Using the observed GJ 832 spectrum and the on-line ACS exposure time calculator, we estimate that S/N = 100 can be achieved in 4500 s with F140LP and 9200s with F165LP. ------------------------------------------------------------------------------------ 14100( 2) - 06-Jul-2015 10:35:59 - [ 4] TARGET LIST Fixed Targets ------------------------------------------------------------------------------------------------------------------------------------ Tar| Target | Target | Target |Coord | Radial | Flux data No | Name | Description | Position |Eqnx | Vel. | ------------------------------------------------------------------------------------------------------------------------------------ 1 GJ832 EXT-STAR, EXTRA-SOLAR RA=21H33M33.9753S +/- 0.1", J2000 V = 4.3 V = 8.672 +/- 0.1 PLANETARY SYSTEM, M DEC=-49D00'32.42" +/- 0.1" V-IV Reference Frame: ICRS Extended: YES Comments: This object was generated by the targetselector and retrieved from the SIMBAD database. Coord and proper motions - 2007A&A...474..653V Epoch of Position RA proper motion (seconds of time/yr) DEC Proper Motion (arcsec/yr) Annual Parallax (arcsec) 2000 -0.0046803032842646225 -0.81763 0.20187 ------------------------------------------------------------------------------------------------------------------------------------ 14100( 2) - 06-Jul-2015 10:35:59 - [ 5] Visit: 01 Visit Requirements: On Hold Comments: Additional Comments: BOT checked and passed. The only flags are when Aladin mistake the target (GJ 832, M1V) for an O5V star. KF - 06/29/15 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 GJ832 ACS/SBC ACCUM SBC F122M 1 900 S (900 SHADOW S) ------------------------------------------------------------------------------------------------------------------------------------ 2 GJ832 ACS/SBC ACCUM SBC F122M 1 600 S (600 SHADOW S) ------------------------------------------------------------------------------------------------------------------------------------ 3 GJ832 ACS/SBC ACCUM SBC F140LP 1 450 S (450 S) ------------------------------------------------------------------------------------------------------------------------------------ 4 GJ832 ACS/SBC ACCUM SBC F140LP 1 453 S (453 S) ------------------------------------------------------------------------------------------------------------------------------------ 5 GJ832 ACS/SBC ACCUM SBC F122M 1 600 S (600 SHADOW S) ------------------------------------------------------------------------------------------------------------------------------------ 6 GJ832 ACS/SBC ACCUM SBC F122M 1 600 S (600 SHADOW S) ------------------------------------------------------------------------------------------------------------------------------------ 7 GJ832 ACS/SBC ACCUM SBC F165LP 1 600 S (600 S) ------------------------------------------------------------------------------------------------------------------------------------ 8 GJ832 ACS/SBC ACCUM SBC F165LP 1 627 S (627 S) ------------------------------------------------------------------------------------------------------------------------------------ 9 GJ832 ACS/SBC ACCUM SBC F122M 1 1000 S SHADOW (1000 S) ------------------------------------------------------------------------------------------------------------------------------------ 10 GJ832 ACS/SBC ACCUM SBC F140LP 1 850 S (850 S) ------------------------------------------------------------------------------------------------------------------------------------ 11 GJ832 ACS/SBC ACCUM SBC F165LP 1 589 S (589 S) ------------------------------------------------------------------------------------------------------------------------------------ 12 GJ832 ACS/SBC ACCUM SBC F122M 1 1000 S SHADOW (1000 S) ------------------------------------------------------------------------------------------------------------------------------------ 13 GJ832 ACS/SBC ACCUM SBC F140LP 1 850 S (850 S) ------------------------------------------------------------------------------------------------------------------------------------ 14 GJ832 ACS/SBC ACCUM SBC F165LP 1 589 S (589 S) 14100( 2) - 06-Jul-2015 10:35:59 - [ 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 ------------------------------------------------------------------------------------------------------------------------------------ ------------------------------------------------------------------------------------------------------------------------------------ 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 | ------------------------------------------------------------------------------------------------------------------------------------ GJ832 1 ACS/SBC ACCUM SBC F122M none none none none 1 N/A GJ832 2 ACS/SBC ACCUM SBC F122M none none none none 1 N/A GJ832 3 ACS/SBC ACCUM SBC F140LP none none none none 1 N/A GJ832 4 ACS/SBC ACCUM SBC F140LP none none none none 1 N/A GJ832 5 ACS/SBC ACCUM SBC F122M none none none none 2 N/A GJ832 6 ACS/SBC ACCUM SBC F122M none none none none 2 N/A GJ832 7 ACS/SBC ACCUM SBC F165LP none none none none 2 N/A GJ832 8 ACS/SBC ACCUM SBC F165LP none none none none 2 N/A GJ832 9 ACS/SBC ACCUM SBC F122M none none none none 3 N/A GJ832 10 ACS/SBC ACCUM SBC F140LP none none none none 3 N/A GJ832 11 ACS/SBC ACCUM SBC F165LP none none none none 3 N/A GJ832 12 ACS/SBC ACCUM SBC F122M none none none none 4 N/A GJ832 13 ACS/SBC ACCUM SBC F140LP none none none none 4 N/A GJ832 14 ACS/SBC ACCUM SBC F165LP none none none none 4 N/A 14100( 2) - 06-Jul-2015 10:35:59 - [ 7] Visit: 02 Visit Requirements: On Hold Comments: Additional Comments: BOT checked and passed. The only flags are when Aladin mistake the target (GJ 832, M1V) for an O5V star. KF - 06/29/15 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 GJ832 ACS/SBC ACCUM SBC F122M 1 900 S (900 SHADOW S) ------------------------------------------------------------------------------------------------------------------------------------ 2 GJ832 ACS/SBC ACCUM SBC F122M 1 600 S (600 SHADOW S) ------------------------------------------------------------------------------------------------------------------------------------ 3 GJ832 ACS/SBC ACCUM SBC F140LP 1 450 S (450 S) ------------------------------------------------------------------------------------------------------------------------------------ 4 GJ832 ACS/SBC ACCUM SBC F140LP 1 453 S (453 S) ------------------------------------------------------------------------------------------------------------------------------------ 5 GJ832 ACS/SBC ACCUM SBC F122M 1 600 S (600 SHADOW S) ------------------------------------------------------------------------------------------------------------------------------------ 6 GJ832 ACS/SBC ACCUM SBC F122M 1 600 S (600 SHADOW S) ------------------------------------------------------------------------------------------------------------------------------------ 7 GJ832 ACS/SBC ACCUM SBC F165LP 1 600 S (600 S) ------------------------------------------------------------------------------------------------------------------------------------ 8 GJ832 ACS/SBC ACCUM SBC F165LP 1 627 S (627 S) ------------------------------------------------------------------------------------------------------------------------------------ 9 GJ832 ACS/SBC ACCUM SBC F122M 1 1000 S SHADOW (1000 S) ------------------------------------------------------------------------------------------------------------------------------------ 10 GJ832 ACS/SBC ACCUM SBC F140LP 1 850 S (850 S) ------------------------------------------------------------------------------------------------------------------------------------ 11 GJ832 ACS/SBC ACCUM SBC F165LP 1 589 S (589 S) ------------------------------------------------------------------------------------------------------------------------------------ 12 GJ832 ACS/SBC ACCUM SBC F122M 1 1000 S SHADOW (1000 S) ------------------------------------------------------------------------------------------------------------------------------------ 13 GJ832 ACS/SBC ACCUM SBC F140LP 1 850 S (850 S) ------------------------------------------------------------------------------------------------------------------------------------ 14 GJ832 ACS/SBC ACCUM SBC F165LP 1 589 S (589 S) 14100( 2) - 06-Jul-2015 10:35:59 - [ 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 ------------------------------------------------------------------------------------------------------------------------------------ ------------------------------------------------------------------------------------------------------------------------------------ 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 | ------------------------------------------------------------------------------------------------------------------------------------ GJ832 1 ACS/SBC ACCUM SBC F122M none none none none 1 N/A GJ832 2 ACS/SBC ACCUM SBC F122M none none none none 1 N/A GJ832 3 ACS/SBC ACCUM SBC F140LP none none none none 1 N/A GJ832 4 ACS/SBC ACCUM SBC F140LP none none none none 1 N/A GJ832 5 ACS/SBC ACCUM SBC F122M none none none none 2 N/A GJ832 6 ACS/SBC ACCUM SBC F122M none none none none 2 N/A GJ832 7 ACS/SBC ACCUM SBC F165LP none none none none 2 N/A GJ832 8 ACS/SBC ACCUM SBC F165LP none none none none 2 N/A GJ832 9 ACS/SBC ACCUM SBC F122M none none none none 3 N/A GJ832 10 ACS/SBC ACCUM SBC F140LP none none none none 3 N/A GJ832 11 ACS/SBC ACCUM SBC F165LP none none none none 3 N/A GJ832 12 ACS/SBC ACCUM SBC F122M none none none none 4 N/A GJ832 13 ACS/SBC ACCUM SBC F140LP none none none none 4 N/A GJ832 14 ACS/SBC ACCUM SBC F165LP none none none none 4 N/A 14100( 2) - 06-Jul-2015 10:35:59 - [ 9] Summary Form for Proposal 14100 Item Used in this proposal ------------------------------------------------------------------------------------------------------------------------------------ Apertures SBC ------------------------------------------------------------------------------------------------------------------------------------ Configurations ACS/SBC ------------------------------------------------------------------------------------------------------------------------------------ Opmodes ACCUM ------------------------------------------------------------------------------------------------------------------------------------ Optional Parameters ------------------------------------------------------------------------------------------------------------------------------------ Special Requirements SHADOW ------------------------------------------------------------------------------------------------------------------------------------ Spectral Elements F122M, F140LP, F165LP ------------------------------------------------------------------------------------------------------------------------------------ Target Names GJ832 ------------------------------------------------------------------------------------------------------------------------------------