| Program Number | Principal Investigator | Program Title |
|---|---|---|
| 13498 | Jennifer Lotz, Space Telescope Science Institute | HST Frontier Fields - Observations of MACSJ0717.5+3745 |
| 13650 | Kevin France, University of Colorado at Boulder | The MUSCLES Treasury Survey: Measurements of the Ultraviolet Spectral Characteristics of Low-mass Exoplanetary Systems |
| 13652 | Boris T. Gaensicke, The University of Warwick | The frequency and chemical composition of rocky planetary debris around young white dwarfs: Plugging the last gaps |
| 13657 | Jeyhan Kartaltepe, National Optical Astronomy Observatory, AURA | Probing the Most Luminous Galaxies in the Universe at the Peak of Galaxy Assembly |
| 13664 | Susan D. Benecchi, Planetary Science Institute | Origin and Composition of the Ultra-Red Kuiper Belt Objects |
| 13667 | Marc W. Buie, Southwest Research Institute | Observations of the Pluto System During the New Horizons Encounter Epoch |
| 13677 | Saul Perlmutter, University of California - Berkeley | See Change: Testing time-varying dark energy with z>1 supernovae and their massive cluster hosts |
| 13699 | Nicolas Martin, Universite de Strasbourg I | Fellowship of the Andromeda Dwarf Galaxies: A Census of their Extended Star Formation Histories |
| 13761 | Stephan Robert McCandliss, The Johns Hopkins University | High efficiency SNAP survey for Lyman alpha emitters at low redshift |
| 13773 | Rupali Chandar, University of Toledo | H-alpha LEGUS: Unveiling the Interplay Between Stars, Star Clusters, and Ionized Gas |
| 13776 | Michael D. Gregg, University of California - Davis | Completing The Next Generation Spectral Library |
| 13802 | Kevin Luhman, The Pennsylvania State University | Characterizing the Sun's 4th Closest Neighbor and the Coldest Known Brown Dwarf |
| 13803 | Melissa A. McGrath, SETI Institute | Europa's Composition as Revealed by its Atmosphere |
| 13805 | Kurt D. Retherford, Southwest Research Institute | Io's Atmosphere Silhouetted in Transit by Jupiter Lyman-alpha |
| 13826 | Massimo Robberto, Space Telescope Science Institute | The Orion Nebula Cluster as a Paradigm of Star Formation |
| 13828 | Steve Shore, Universita di Pisa | Late nebular stage high resolution UV spectroscopy of classical Galactic novae: a benchmark panchromatic archive for nova evolution |
| 13829 | William B. Sparks, Space Telescope Science Institute | The ice plumes of Europa |
| 13841 | Alexandre Gallenne, Universidad de Concepcion | Accurate masses and distances of the binary Cepheids S Mus and SU Cyg |
| 13853 | Stephen Bradley Cenko, NASA Goddard Space Flight Center | UV Spectroscopy of Newly Discovered Tidal Disruption Flares |
| 13865 | David Jewitt, University of California - Los Angeles | Determining the Nature and Origin of Mass Loss from Active Asteroid P/2013 R3 |
| 13866 | David Jewitt, University of California - Los Angeles | Determining the Nature and Origin of Mass Loss from Active Asteroid P/2013 P5 |
| 13869 | Andrew J. Levan, The University of Warwick | Pinpointing the location and host of the candidate tidal disruption Swift J1112.3-8238 |
| 14040 | David Jewitt, University of California - Los Angeles | Unique Hubble Investigation of a Newly Discovered Main Belt Comet |
| 14055 | Andrew J. Levan, The University of Warwick | HST NIR observations of the currently active magnetar SGR 1935+2154 |
GO 13498: HST Frontier Fields - Observations of MACSJ0717.5+3745
The Frontier Fields cluster, MACSJ0717.5 +3745 |
The overwhelming majority of galaxies in the universe are found in clusters. As such, these systems offer an important means of tracing the development of large-scale structure through the history of the universe. Moreover, as intense concentrations of mass, galaxy clusters provide highly efficient gravitational lenses, capable of concentrating and magnifying light from background high redshift galaxies to allow detailed spectropic investigations of star formation in the early universe. Hubble imaging has already revealed lensed arcs and detailed sub-structure within a handful of rich clusters. At the same time, the lensing characteristics provide information on the mass distribution within the lensing cluster. The present program builds on the highly successful CLASH program,which used 17-colour ACS/WFC3 images to map 25 galaxy clusters, tracing the mas profile and the dark matter distribution. in addition, the observations identified several lensed galaxies at redshifts that enter the JWST domaine, with the most distant object lying at a redshift z~11, within a few hundred million years of the Big Bang. The Frontier Fields program is a large-scale Director's Discretionary program that capitalises on the latter characteristic by targeting 4-6 strong-lensing galaxy clusters for very deep optical and near-infrared imaging. WFC3 and ACS will be used to observe the clusters, with simultaneous imaging obtained in parallel of a nearby "blank" field. Since the observations need to made at a specific orientation, they are being taken in two sets, ~6 months apart, alternating between detectors. MACSJ0717.5+3745 at z=0.545 is the third target: at this second epoch of observation, the cluster is being imaged with ACS while WFC3-IR ocovers the parallel field. |
GO 13667: Observations of the Pluto System during the New Horizons Encounter
The first New Hoirizon image Pluto and Charon, from a distance of ~200 million km |
Pluto, one of the largest members of the Kuiper Belt and, until recently, the outermost planet in the solar system, is the primary target of NASA's New Horizons Mission and has been the subject of a range of supporting HST programs over the past few years. Those observing programs have added four moons to the Pluto system. James Christy originally identified the largest moon, Charon, in 1978 from photographic plates Charon has a diameter of ~1200 km, or almost half that of Pluto itself. In 2005, Hubble added two small moons, christened Nix and Hydra, approximately 5,000 times fainter than Pluto itself, implying diameters as small as ~30-50 km if the surface composition is similar. More recent observations, in support of New Horizons mission, aimed to use 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. Most recently, Hubble carried out an extensive imaging survey to identify KBOs lying beyond pluto that might seve as targets for an extended new Horizons mission. Two such candidates were identified, and hubble will be conducting follow up observations to further constrain their orbits. The present observations are in direct support of the primary New Horizons mission. WFC3 will be used to provide a comprehensive set of direct imaging and grism observations that will provide reference data to the broad context for interpreting New Horizons data compiled during the July 14th system fly-by. |
GO 13677: See Change: Testing time-varying dark energy with z>1 supernovae and their massive cluster hosts
HST/ACS images of a supernova in a galazy at z=1.2 |
The last few years of the twentieth century saw a revolution in cosmology, with the measurement of the acceleration term in expansion at high redshifts and the identification of dark energy as a major cosmological component. The overall significance of this result has been recognised through the award of the Nobel prize and, most recently, the Fundamental Physics Breakthrough Prize to Perlmutter, Riess and Schmidt and their respective teams. Type Ia supernovae are the prime yardstick for measuring the rate of expansion at moderate and high redshifts. The seminal work in this field was carried out with ground-based telescopes, but Hubble offers almost the only way of obtaining reliable post-maximum photometry of these objects to determine the full shape of the light curve. Many previous HST supernovae programs have concentrated on field galaxies, but applying appropriate corrections for in situ reddening by dust remains an issue in these systems, while the overall SNe detection rates are relatively low at high redshifts. The present program takes a different tack, and aims to minimise the uncertainties by searching for supernovae in massive, high-redshift clusters. The expectation is that the majority of detections lie within dust-poor elliptical galaxies; moreover, supernova rates may be higher. The program will obtain ACS observations of ten of the most massive galaxy clusters lying at redshifts 1.1 < z < 1.75. |
GO 13841: Accurate masses and distances of the binary Cepheids S Mus and SU Cyg
The radial velocity curve (left) and pulsational velocity curve (middle) of the primary component of the binary Cepheid, V1334 Cyg (Gallene et al, A&A, 552, A21) |
SU Cygni and S Muscae are short-period (P = 3.8 days, 9.66 days) classical Cepheid variables lying at a distance of a few hundred parsecs from the Sun. Both are known binary systems, with SU Cyg harbouring a ~4 solar mass, B6 companion and S Muscae matched with a 3-5 solar mass, B3-B5 companion. At optical wavelengths, the combined flux is dominated by the cooler Cepheid in these systems, but hot companion is detectable at ultraviolet wavelengths. The present program aims to use STIS to obtain ultraviolet spectra that will enable measurement of the radial velocity curve for the hot companions in these systems. Those observations will be combined with existing ground-based measurements of the Cepheid radial velocities, therefore determing velocity curves for both stars. Combining those data with high-precision astrometric measurements from ground-based interferometry will allow a direct measurement of mass and distance for both systems. |