| Program Number | Principal Investigator | Program Title |
|---|---|---|
| 14037 | Jennifer Lotz, Space Telescope Science Institute | HST Frontier Fields - Observations of Abell S1063 |
| 14069 | Nate Bastian, Liverpool John Moores University | Searching For Multiple Populations in Massive Young and Intermediate Age Clusters |
| 14076 | Boris T. Gaensicke, The University of Warwick | An HST legacy ultraviolet spectroscopic survey of the 13pc white dwarf sample |
| 14082 | Dan Maoz, Tel Aviv University - Wise Observatory | Connecting white dwarf rotation and debris accretion |
| 14095 | Gabriel Brammer, Space Telescope Science Institute - ESA | Calibrating the Dusty Cosmos: Extinction Maps of Nearby Galaxies |
| 14098 | Harald Ebeling, University of Hawaii | Beyond MACS: A Snapshot Survey of the Most Massive Clusters of Galaxies at z>0.5 |
| 14105 | Jonathan David Nichols, University of Leicester | Observing Jupiter's FUV auroras near Juno orbit insertion |
| 14108 | John J. Salzer, Indiana University System | The Intriguing Case of the (Almost) Dark Galaxy AGC 229385 |
| 14111 | Edward M. Sion, Villanova University | The SN Ia Candidate T Pyxidis: The Mystery of its High Accretion Rate |
| 14119 | Luciana C. Bianchi, The Johns Hopkins University | Understanding Stellar Evolution of Intermediate-Mass Stars from a New Sample of SiriusB-Like Binaries |
| 14120 | Jarle Brinchmann, Universiteit Leiden | He II emission as a tracer of ultra-low metallicity and massive star evolution |
| 14127 | Michele Fumagalli, Durham Univ. | First Measurement of the Small Scale Structure of Circumgalactic Gas via Grism Spectra of Close Quasar Pairs |
| 14131 | Ivana Orlitova, Astronomical Institute, Academy of Sciences of CR | Origin of double peaks in Lyman-alpha spectra: diffuse halos or Lyman continuum leakage? |
| 14134 | Swara Ravindranath, Space Telescope Science Institute | Spectral Diagnostics for the Reionization Era: Exploring the Semi-Forbidden CIII] Emission in Low Metallicity Green Pea Galaxies |
| 14161 | Ruth C. Peterson, SETI Institute | The Intersection of Atomic Physics and Astrophysics: Identifying UV Fe I Lines from Metal-Poor Turnoff Stars |
| 14175 | Paul Goudfrooij, Space Telescope Science Institute | Resolving the Nature of the Stellar Halo of the Sombrero, the Nearest Giant Early-Type Spiral Galaxy |
| 14178 | Matthew A. Malkan, University of California - Los Angeles | WFC3 Infrared Spectroscopic Parallel Survey: The WISP Deep Fields |
| 14182 | Thomas H. Puzia, Pontificia Universidad Catolica de Chile | The Coma Cluster Core Project |
| 14199 | Patrick Kelly, University of California - Berkeley | Refsdal Redux: Precise Measurements of the Reappearance of the First Supernova with Multiple Resolved Images |
| 14204 | Antonino Paolo Milone, Australian National University | Multiple stellar populations in two young Large Magellanic Cloud clusters: NGC1755 and NGC1866 |
| 14216 | Robert P. Kirshner, Harvard University | RAISIN2: Tracers of cosmic expansion with SN IA in the IR |
| 14223 | Brenda Louise Frye, University of Arizona | The Planck Dusty Gravitationally Enhanced subMillimeter Sources (GEMS) |
| 14241 | Daniel Apai, University of Arizona | Cloud Atlas: Vertical Cloud Structure and Gravity in Exoplanet and Brown Dwarf Atmospheres |
| 14251 | Amy E. Reines, National Optical Astronomy Observatory, AURA | The Structures of Dwarf Galaxies Hosting Massive Black Holes |
| 14252 | Veronica Strazzullo, Universitats-Sternwarte Munchen | Environmental signatures on galaxy populations in the most massive clusters at z~1.5 |
| 14259 | Denija Crnojevic, Texas Tech University | Resolved halo substructures beyond the Local Group: the assembly histories of NGC 253 and NGC 5128 |
| 14327 | Saul Perlmutter, University of California - Berkeley | See Change: Testing time-varying dark energy with z>1 supernovae and their massive cluster hosts |
| 14490 | Jay Christopher Howk, University of Notre Dame | Pop III material found 6 Gyr after the Big Bang? COS constraints on the lowest-metallicity gas at z<1 |
| 14496 | Andrew B. Newman, Carnegie Institution of Washington | Resolving the Stellar Populations, Structure, and Kinematics of the NIR-Brightest Lensed Galaxy at z=2 |
| 14502 | Andrew James Levan, The University of Warwick | The IR counterpart and proper motion of SGR 1935+2154 |
GO 14076: An HST legacy ultraviolet spectroscopic survey of the 13pc white dwarf sample
Artist's impression of a comet spiralling in to the white dwarf variable, G29-38 |
During the 1980s, one of the techniques used to search for brown dwarfs was to obtain near-infrared photometry of white dwarf stars. Pioneered by Ron Probst (KPNO), the idea rests on the fact that while white dwarfs are hot (5,000 to 15,000K for the typical targets), they are also small (Earth-sized), so they have low luminosities; consequently, a low-mass companion should be detected as excess flux at near- and mid-infrared wavelengths. In 1988, Ben Zuckerman and Eric Becklin detected just this kind of excess around G29-38, a relatively hot DA white dwarf that also happens to lie on the WD instability strip. However, follow-up observations showed that the excess peaked at longer wavelengths than would be expected for a white dwarf; rather, G 29-38 is surrounded by a dusty disk. Given the orbital lifetimes, those dust particles must be regularly replenished, presumably from rocky remnants of a solar system. G 29-38 stood as a lone prototype for almost 2 decades, until a handful of other dusty white dwarfs were identified from Spitzer observations within the last couple of years.In subsequent years, a significant number of DA white dwarfs have been found to exhibit narrow metallic absorption lines in their spectra. Those lines are generally attributed to "pollution" of the white dwarf atmospheres. Given that the diffusion time for metals within the atmospheres is short (tens to hundreds of years), the only reasonable means of maintaining such lines in ~20% of the DA population is to envisage continuous accretion from a surrounding debris disk. The Cosmic Origins Spectrograph (COS) is an ideal instrument for probing the abundance of trace elements in white dwarfs atmospheres: more than 70 systems have been observed, with detection rates running at around 50%. The present program is using COS to refine the statistics by targeting a volume-limited sample of 37 white dwarfs within 13 parsecs of the Sun. This sample is sufficient to provide an estimate of the overall occurence of accreting systems. |
GO 14182: The Coma Cluster Core Project
Hubble image covering part of the central regions of the Coma cluster |
The Coma cluster is the nearest rich galaxy cluster, lying at a distance of
~100 Mpc from the Milky Way. The cluster includes well over 1000 major galaxies, centred on two giant
ellipticals, NGC 4874 and NGC 4889. Chandra observations show that the
galaxies are embedded in very hot intracluster gas
(see |
GO 14216: RAISIN2: Tracers of cosmic expansion with SN IA in the IR
The first supernova discovered by the Pan-STARRs survey |
Supernovae are the most spectacular form of stellar obituary. In recent years, these celestial explosions have acquired even more significance through the use of Type Ia supernovae as distance indicators in mapping the `dark energy' acceleration term of cosmic expansion. However, while there are well-established models for the two main types of supernovae (runaway fusion on the surface of a white dwarf in a binary system for Type Ia, or detonation of the core in Type II), some uncertainties remain as to the uniformity of the events. Moreover, as the sample of known supernova has grown, so has the range of photometric systems and the methods used to fit the light curve and account for the ever-present uncertainites inroduced by dust absorption. Consequently, the potential remains for systematic bias in distance estimates due both to intrinsic differences and to measurement errors. The present program builds on a Cycle 21 program, and aims to minimise these systematics by compiling standard sequences of observations, primarily in the Y, J, and H filters, of supernovae at redshifts between z~0.3 and 0.5. Focusing on those wavelengths minises the effects, and hence the uncertainties, due to dust absorption. The supernovae themselves are drawn from the Pan-STARRS survey, with the WFC3-IR camera on HST employed to obtain the photometry. |
GO 14241: Cloud Atlas: Vertical Cloud Structure and Gravity in Exoplanet and Brown Dwarf Atmospheres
Ground-based imaging the the very low-mass brown dwarf binary, 2MASS1207 |
Recent years have seen the discovery of numerous extrasolar planets. Initially, most were discovered through radial velocity monitoring; more recently the superb photometric properties of the Kepler mission have led to the discovery of numerous transiting systems. Lagging behind in numbers, but offering the greatest prospect for probing physical conditions, is direct imaging. A handful of systems with resolved planetary companions have been discovered, most notably the multi-planet system around the nearby A-type star, but they are much more massive and therefore have higher gravities. The present program aims to gain insight into their structure by comparing resolved exoplanets and higher mass, but similar temperature, brown dwarfs. Observations of isolated brown dwarfs have shown evidence for systematic variations in brightness, possibly due to dust within the atmosphere forming clouds, perhaps giving the dwarf's surface a banded appearance, similar to Jupiter. The clouds themselves may appear and disappear over relatively short timescales, leading to photometric variations at particular wavelengths. Past programs have used both Spitzer and HST to monitor spectral variability in a number of systems. The present program will use Wide-field Camera 3 to obtain time-series near-infrared grism spectra of ten brown dwarfs and high-mass exoplanets. Variations in those spectra map the atmospheric cloud structure in each system, and those variations can be examined for correlations with the mass/gravity of the parent object. |