| Program Number | Principal Investigator | Program Title |
|---|---|---|
| 12817 | Richard J. Massey, University of Durham | Longevity of dark matter substructure in Abell 3827 |
| 12880 | Adam Riess, The Johns Hopkins University | The Hubble Constant: Completing HST's Legacy with WFC3 |
| 12884 | Harald Ebeling, University of Hawaii | A Snapshot Survey of The Most Massive Clusters of Galaxies |
| 12897 | Marc W. Buie, Southwest Research Institute | Pluto System Orbits in Support of New Horizons |
| 12898 | Leon Koopmans, Kapteyn Astronomical Institute | Discovering the Dark Side of CDM Substructure |
| 12902 | Matthew A. Malkan, University of California - Los Angeles | WFC3 Infrared Spectroscopic Parallel Survey WISP: A Survey of Star Formation Across Cosmic Time |
| 12904 | Joel N. Bregman, University of Michigan | The Galactic Fountain Meets The Accreting Halo |
| 12911 | Luigi R. Bedin, Osservatorio Astronomico di Padova | A search for binaries with massive companions in the core of the closest globular cluster M4 |
| 12932 | Francesco R. Ferraro, Universita di Bologna | COSMIC-LAB: Hunting for optical companions to binary MSPs in Globular Clusters |
| 12936 | Edward B. Jenkins, Princeton University | The Physical and Dynamical Properties of Gas that Molds the Fermi Bubbles |
| 12961 | Misty C. Bentz, Georgia State University Research Foundation | A Cepheid Distance to NGC6814 |
| 12962 | William B. Sparks, Space Telescope Science Institute | Optical Line Emission Impact Polarization: SN1006 |
| 12969 | Peter Garnavich, University of Notre Dame | Global Properties Are Not Enough: Probing the Local Environments of Type Ia Supernovae |
| 12971 | Harvey B. Richer, University of British Columbia | Completing the Empirical White Dwarf Cooling Sequence: Hot White Dwarfs in 47 Tucanae |
| 13000 | Sungryong Hong, National Optical Astronomy Observatory, AURA | Impact of Environments on Lyman alpha Emitting Galaxies at High Redshift {z ~ 2.7} |
| 13004 | Margaret Meixner, The Johns Hopkins University | The Life Cycle of Dust in the Magellanic Clouds: Crucial Constraints from Zn and Cr depletions |
| 13021 | Jacob L. Bean, University of Chicago | Revealing the Diversity of Super-Earth Atmospheres |
| 13042 | Paul Denholm Dobbie, University of Tasmania | Confirming the theoretical link between ultra-massive white dwarfs and heavy-weight intermediate mass stars. |
| 13046 | Robert P. Kirshner, Harvard University | RAISIN: Tracers of cosmic expansion with SN IA in the IR |
| 13057 | Kailash C. Sahu, Space Telescope Science Institute | Detecting and Measuring the Masses of Isolated Black Holes and Neutron Stars through Astrometric Microlensing |
| 13177 | Marusa Bradac, University of California - Davis | Spitzer UltRaFaint SUrvey {SURF'S Up}: Cluster Lensing and Spitzer Extreme Imaging Reaching Out to z~7 |
| 13364 | Daniela Calzetti, University of Massachusetts - Amherst | LEGUS: Legacy ExtraGalactic UV Survey |
| 13386 | Steven A. Rodney, The Johns Hopkins University | Frontier Field Supernova Search |
| 13505 | Dan Milisavljevic, Harvard University | SN 2012im/2013ek: A Supernova Double Take in NGC 6984 |
GO 12880: The Hubble Constant: Completing HST's Legacy with WFC3
 A GALEX image of Messier 106 (NGC 4258), one of the galaxies targeted in this program |
The Hubble constant remains a key parameter in understanding cosmology and the evolution of the Universe. Refining measurements of H0 therefore still represents a vital means of probing the nature of dark energy. The present program aims to tackle this question by laying a firmer foundation to the SNe Ia distance scale. The WFC3 IR camera will be used to identify and characterise Cepheid variables in eight relatively nearby galaxies that have hosted Type Ia SNe. Cepheids have signficantly lower amplitude at near-infrared wavelengths, and the measured magnitudes are less subject to uncertainties due to foreground reddening and variations in metallicity. As a consequence, determining the mean apparent magnitude, and hence the period/apparent magnitude relation, is substantially more straightforward than at optical wavelengths. WFC3 has revolutionised this field by providing substantial greater areal coverage and higher precision photometry than NICMOS. Past observational program have targeted the Cepheids in the maser galaxy, NGC 4258, as well as Galactic Cepheids. The present program targets eight galaxies that have hosted Type Ia supernovae, offering the prospect of tying the SNe Ia scale directly to the Galaxy and to NGC 4258, avoiding the many intermediate steps of previous analyses. The aim is to reduce the level of systematics in determinations of H0 to the 1-2 percent level, setting signficantly stronger constraints on dark energy. |
GO 12897: Pluto system orbits in support of New Horizons
Hubble Space Telescope images of the Pluto system, including the recently discovered moons, P4 and P5 |
Pluto, one of the largest members of the Kuiper Belt and, until recently, the outermost planet in the solar system, has been in the news over the last year or two. Besides the extended "planet"/"dwarf planet" debate, Pluto is the primary target of the New Horizons Mission. In 1978, James Christy discovered from analyses of photographic plates that Pluto has a relatively large companion moon, Charon, with a diameter of ~1200 km, or almost half that of Pluto itself. In 2005, Hubble observations led to the discovery of two small moons, christened Nix and Hydra. These two new moons are 5,000 fainter than Pluto itself, implying diameters as small as ~30-50 km if the surface composition is similar to Pluto itself. Over the past two years, a series of observations were taken in support of the New Horizons mission, using WFC3 to search for faint rings due to dust particles that might jeopardise the space craft and require a course correction. While no rings were detected unequivocally, two small satellite, christened "P4" and "P5", have been discovered. Both are significantly fainter than Nix and Hydra, and may well be as small as 10-13 km in size. There is also some evidence that might point to the presence of a debris ring within Charon's orbit. The present observations, again in support of New Horizons, will use WFC3 to push to even fainter magnitudes to both better characterise the P4 and P5 orbits and search for even fainter moons. |
GO 13021: Revealing the Diversity of Super-Earth Atmospheres
Artist's impression of a planet in the GJ 1214 system |
GJ 1214 is a 14th magnitude M4.5 dwarf that lies at a distance of ~13 parsecs from the Sun in the constellation of Ophiuchus. It's main claim to fame is that it has a confirmed planetary companion in an orbit with a period of 1.58 days and a mass of 6.55+/-0.98 earth masses. This super-Earth transits the parent star, allowing an accurate determination of its diameter as 2.64 times that of Earth. Transiting systems offer a potential gold-mine for extrasolar planetary studies, since not only is the diameter (and hence the average density) directly measureable form the eclipse depth, but the atmospheric composition can be probed through line absorption or re-radiated thermal flux. The results from these measurments can be used to test, and improve, theoretical models of extrasolar planets. These observations are best done from space: indeed, the only successful atmospheric observations to date have been with HST and Spitzer. The present program will use the WFC3/IR grisms to map the near-IR spectral energy distribution through several trasnits, searching for characteristic features due to water and (perhaps) methane. |
GO 13364: LEGUS: Legacy ExtraGalactic UV Survey
UGC 4305 = Holmberg II - Arp 268, one of the star-forming galaxies targeted by LEGUS |
Understanding the global architecture of star formation is a key step towards understanding the morphological evolution of galaxies and the characteristics of the underlying stellar populations. HST has devoted extensive resources to observations of nearby galaxies over its lifetime, including detailed surveys of a handful of systems, notably the PHAT survey of M31, with the enhanced imaging capabilities made available following SM4. Most of those programs, however, have focused on optical, far-red and, to a lesser extent, near-infrared wavelengths. While those observations provide high-quality colour-magnitude data that enable an exploration of relatively mature populations, they are less effective at probing active star-formation sites populated by young, high-mass stars. Those regions are most prominent at ultraviolet wavelengths, and the present program aims to capitalise on the past heritage of HST observations vby adding near-UV imaging for 50 nearby galaxies. The 50 targets are drawn from a catalogue of 400 systems within ~11 Mpc of the Milky Way, and have been selected to provide a fair sampling of the wide variety of galactic systems within that volume. The program will image star-forming regions in these systems in near-UV and blue wavelengths using the WFC3 UVIS channel with the F275W, F336W and F438W filters, supplemented by F55W and F81wW (V and IK) where necessary. |