| Program Number | Principal Investigator | Program Title |
|---|---|---|
| 14096 | Dan Coe, Space Telescope Science Institute - ESA | RELICS: Reionization Lensing Cluster Survey |
| 14119 | Luciana C. Bianchi, The Johns Hopkins University | Understanding Stellar Evolution of Intermediate-Mass Stars from a New Sample of SiriusB-Like Binaries |
| 14254 | Tommaso L. Treu, University of California - Los Angeles | Accurate cosmography from gravitational time delays: 2.3% on H0 from deep WFC3 images of lensed quasars |
| 14606 | Brooke Devlin Simmons, University of California - San Diego | Secular Black Hole Growth and Feedback in Merger-Free Galaxies |
| 14610 | Julianne Dalcanton, University of Washington | A Legacy Imaging Survey of M33. |
| 14618 | Michael Shara, American Museum of Natural History | Ultraviolet Flashers in M87: Rapidly Recurring Novae as SNIa Progenitors |
| 14628 | Danielle Berg, University of Wisconsin - Milwaukee | The Evolution of C/O in Low Metallicity Dwarf Galaxies |
| 14633 | Kevin France, University of Colorado at Boulder | A SNAP UV Spectroscopic Study of Star-Planet Interactions |
| 14652 | Benne Willem Holwerda, University of Louisville Research Foundation, Inc. | Super-Eight: The brightest z~8 Galaxies |
| 14657 | Lida Oskinova, Universitat Potsdam | The wind variability in oscillating massive stars |
| 14670 | Paul George Kalas, University of California - Berkeley | Exploring a highly perturbed debris disk associated with an exiled exoplanet |
| 14672 | Ruth C. Peterson, SETI Institute | Tracing the Earliest Nucleosynthesis from Elements Just Past the Iron Peak in Extremely Metal-Poor Dwarfs |
| 14675 | Julia Christine Roman-Duval, Space Telescope Science Institute - ESA | Metal Evolution and TrAnsport in the Large Magellanic Cloud (METAL): Probing Dust Evolution in Star Forming Galaxies |
| 14682 | Bjoern Benneke, California Institute of Technology | A Search for Methane, Ammonia, and Water on Two Habitable Zone Super-Earths |
| 14691 | JJ Hermes, University of North Carolina at Chapel Hill | Unraveling the oscillations of the richest pulsating hydrogen-atmosphere white dwarf |
| 14703 | Andrea Banzatti, | Measuring residual H2 gas from small to large gaps in protoplanetary disks: different pathways to planets? |
| 14706 | Eilat Glikman, Middlebury College | Testing the Triggering Mechanism for Luminous, Radio-Quiet Red Quasars in the Clearing Phase: A Comparison to Radio-Loud Red Quasars |
| 14710 | Antonino Paolo Milone, Australian National University | Multiple Stellar Populations in Young Magellanic Cloud Clusters |
| 14717 | Iair Arcavi, University of California - Santa Barbara | What is Enhancing the Tidal Disruption Rate of Stars in Post-Starburst Galaxies? |
| 14719 | Philip N. Best, Royal Observatory Edinburgh | The detailed properties of star-forming regions at high redshift: a matched-resolution HST-Halpha-ALMA study |
| 14729 | Rajib Ganguly, University of Michigan | A New Twist in the Quasar Radio Dichotomy: The Case of the Missing Outflows |
| 14753 | Claes Fransson, Stockholm University | Supernova 1987A at 30 years |
| 14754 | Crystal Linn Martin, University of California - Santa Barbara | Confronting the 3D Orientation of Galactic Disks in Space: Disk Structure vs. Circumgalactic Gas Flows |
| 14762 | Justyn Robert Maund, University of Sheffield | A UV census of the sites of core-collapse supernovae |
| 14767 | David Kent Sing, University of Exeter | The Panchromatic Comparative Exoplanetary Treasury Program |
| 14779 | Melissa Lynn Graham, University of Washington | A NUV Imaging Survey for Circumstellar Material in Type Ia Supernovae |
| 14840 | Andrea Bellini, Space Telescope Science Institute | Schedule Gap Pilot |
| 14890 | Shriharsh Tendulkar, McGill University | Solving the enigma of Fast Radio Burst 121102 |
| 14898 | Jenny Emma Greene, Princeton University | The Ongoing Search for Supermassive Black Hole Binaries |
| 14902 | Peter Blanchard, Harvard University | Imaging and UV Spectroscopy of the Luminous and Unique Nuclear Transient PS16dtm |
| 14903 | Lorenz Roth, Royal Institute of Technology | Detection methods for water vapor in Europa's plumes. |
| 14908 | Luca Zappacosta, INAF, Osservatorio Astronomico di Roma | Probing the merger-induced feedback scenario in hyper-luminous quasars |
GO 14610: A Legacy Imagign Survey of M33
M33, the Triangulum Galaxy (Subaru imaging) |
Messier 33, or the Triangulum galaxy, is the smallest of the three spiral galaaxies in the Local Group. Lying at a distance of ~800 kpc from the Milky Way, the system may be a satellite of the Andromeda spiral, and certainly appears to have experienced past interactions. With a mass less than half that of the Milky Way, the galaxy has a small, distinct bulge, no bar and extensive star formation regions forming spiral structure. The proximity to the Milky Way means that Hubble can resolve individual stars, albeit limited to relatively high luminosities. The present program aims to build on that capability by mapping aproximately one-third of the system. Wide Field Camnera 3 and the Advanced Camera for Surveys will be used in parallel to image 54 fields, obtaining multi-band data from the near-UV (F275W filter) through the U, B and I bands (F336W, F475W, F814W) to the near-infarred (F110W and F160W). Those data will enable investigations of the initial mass function for luminous stars; trace the detailed star formation and recent history as a function of location within the galaxy; map the dust distribution; and allow for the detection of star clusters. This dataset will complement the extensive survey of the Andromeda spiral conducted via the PHAT survey. |
GO 14633: A SNAP UV Spectroscopic Study of Star-Planet Interactions
SOHO image of an extremely strong solar flare |
Stellar activity, whether through flares and coronal mass ejections, has the potential to affect the ability of life to evolve and survive on otherwise habitable planets in stellar systems. High energy radiation can lead to significant mutations, and particle ejections can actually strip the atmospheres of unfortunate planets. Previous HST programs have focused on low mass M dwarfs, the most populous stars in the galaxy, and systems where the habitable zone lies close to the parent star, with a correspondingly higher vulnerability. Those observations suggest evidence for interactions between the stellar transition region and the planets, with a correlation between the presence of high temperature emission lines (N V, C IV, Si IV) and the planetary mass and orbit i.e. suggestive of planetary interactions driving conditions in the stellar corona. The present SNAP program expand obsevations to higher-mass K dwarfs and solar-type G dwarfs that are known to harbour exoplanets, searching for similar correlations. The Cosmic Origins Spectrograph will be used to obtain UV spectra (1150-1450 Angstroms), providing a broad sampling of the range of activity levels among these dwarfs. |
GO 14753: Supernova 1987A at 30 years
Evolution of a supernova remnant
|
SN1987A, in the Large Magellanic Cloud, is (as far as we know) the nearest supernova to the Sun since Kepler's supernova of 1604. While its eruption, in January 1987, predated HST's launch by over 3 years, the remnant has been a regular observational target since the installation of COSTAR at the first servicing mission. Those high resolution observations have revealed the development, and evolution, of extensive, intricate structures as the blast wave from SN1987A encounters the surrounding interstellar medium. In particular, a striking circum-remnant ring has developed, with numerous hot spots stimulated by the fastest moving debris. Over the past few cycles, the hotspots are fusing as the shock fully enters the ring, and photons from these regions are exciting previously hidden gas outside the ring, illuminating mass lost from the progenitor before the explosion. The inner debris are now well resolved, and clearly aspherical. By now, the blast wave has passed the inner ring, which is starting to fade, and is interacting with more distant materials. The present program will use the Cosmic Origins Spectrograph and the Space Telescope Imaging Spectrograph to obtain ultraviolet and optical spectra of the ejecta and the ring, probing the composition and enabling detailed modelling of nucleosynthesis. Overall, these observations provide crucial insight into the earliest stages of formation of a supernova remnant. |
GO 14767: The Panchromatic Comparative Exoplanetary Treasury Program
Artist's impression of the GJ 1214 system |
The first exoplanet, 51 Peg b, was discovered through radial velocity measurements in 1995. 51 Pegb was followed by a trickle, and then a flood of other discoveries, as astronomers realised that there were other solar systems radically different from our own, where "hot jupiters" led to short-period, high-amplitude velocity variations. Then, in 1999, came the inevitable discovery that one of those hot jupiters. HD 209458b, was in an orbit aligned with our line of sight to the star, resulting in transits. Since that date, the number of known transiting exoplanet systems has grown to more than 100 from ground-based observations, most detected through wide-field photometric surveys, while the high-sensitivity data provided by Kepler has added a further 1000+ confirmed systems and ~2000 additional candidates. Transiting systems not only provide an accurate measure of the planetary radius (at least relative to the parent star), they also provide us with an opportunity to probe the atmospheric composition through spectroscopy during the transit. Hubble has made significant inroads in this area, while Spitzer has contributed measurements of planetary emissivity through observations during and after eclipse. The James Webb Space Telescope has the capability to revolutionise our knowledge in this field through highly sensitiive observations at near and mid-infra red wavelengths. The present program aims to lay the foundation for those programs by using Hubble to compile multiwavelength (UV to near-IR) spectroscopic observations of 20 exoplanets. The targets are all gas giants, ranging from super-jovian masses to neptunian masses. The observations will be obtained with the Space Telescope Imaging Spectrograph and the near-infrared grisms on Wide Field Camera 3. |