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: http://www.stsci.edu/~inr/thisweek1/2008/thisweek259.html
Дата изменения: Mon Sep 15 17:55:04 2008 Дата индексирования: Wed Jan 14 14:22:33 2009 Кодировка: Поисковые слова: eit |
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| Program Number | Principal Investigator | Program Title | Links |
| 10877 | Weidong Li, University of California - Berkeley | A Snapshot Survey of the Sites of Recent, Nearby Supernovae | Abstract |
| 10884 | Gray Wegner, Dartmouth College | The Dynamical Structure of Ellipticals in the Coma and Abell 262 Clusters | Abstract |
| 11103 | Harald Ebeling, University of Hawaii | A Snapshot Survey of The Most Massive Clusters of Galaxies | Abstract |
| 11107 | Timothy M. Heckman, The Johns Hopkins University | Imaging of Local Lyman Break Galaxy Analogs: New Clues to Galaxy Formation in the Early Universe | Abstract |
| 11113 | Keith S. Noll, Space Telescope Science Institute | Binaries in the Kuiper Belt: Probes of Solar System Formation and Evolution | Abstract |
| 11130 | Luis Ho, Carnegie Institution of Washington | AGNs with Intermediate-mass Black Holes: Testing the Black Hole-Bulge Paradigm, Part II | Abstract |
| 11158 | R. Michael Rich, University of California - Los Angeles | HST Imaging of UV emission in Quiescent Early-type Galaxies | Abstract |
| 11175 | Sandra M. Faber, University of California - Santa Cruz | UV Imaging to Determine the Location of Residual Star Formation in Galaxies Recently Arrived on the Red Sequence | Abstract |
| 11211 | George Fritz Benedict, University of Texas at Austin | An Astrometric Calibration of Population II Distance Indicators | Abstract |
| 11212 | Douglas R. Gies, Georgia State University Research Foundation | Filling the Period Gap for Massive Binaries | Abstract |
| 11213 | Gerard T. van Belle, California Institute of Technology | Distances to Eclipsing M Dwarf Binaries | Abstract |
| 11218 | Howard E. Bond, Space Telescope Science Institute | Snapshot Survey for Planetary Nebulae in Globular Clusters of the Local Group | Abstract |
| 11235 | Jason A. Surace, California Institute of Technology | HST NICMOS Survey of the Nuclear Regions of Luminous Infrared Galaxies in the Local Universe | Abstract |
| 11289 | Jean-Paul Kneib, Laboratoire d'Astronomie Spatiale | SL2S: The Strong Lensing Legacy Survey | Abstract |
| 11827 | Keith S. Noll, Space Telescope Science Institute | Observations of NGC2438 | Abstract |
GO 11107: Imaging of Local Lyman Break Galaxy Analogs: New Clues to Galaxy Formation in the Early Universe
Mosaic of HST images of M82, the best-known starburst galaxy
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Current Big Bang cosmological models predict that the universe should have undergone a global re-ionisation at redshifts between 6 and 20. The first generation of stars is generally tapped as the most likely source of the ionising radiation, perhaps enhanced through merger-stimulated starbursts. Direct observations of those galaxies are not possible at present, although the James Webb Space Telescope is expected to open up observations of these systems. In consequence, there is considerable interest in identifying galaxies at lower redshifts that could serve as analogues for the z>6 systems. Over the last few years, the Galaxy Evolution Explorer (GALEX) has proved an important new tool in identifying candidate objects. GALEX has conducted an all-sky survey at ultraviolet wavelengths, and has uncovered sigificant numbers of UV luminous galaxies at low and moderate redshifts. Many of these galaxies are starbursts, undergoing substantial outbursts of star formation. These galaxies have been categorised as "compact UV luminous galaxies" (UVLGs). These appear to be galaxies that are undergoing small-scale mergers, leading to extensive dissipation and vigorous star formation. The present program is using the ACS/SBC prism and WFPC2 to obtain ultraviolet spectra and R-band images of 31 systems, probing the star formation history and its variation with environment. |
GO 11211: An Astrometric Calibration of Population II Distance Indicators
Measuring trigonometric parallax
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Trigonometric parallax measurement remains the fundamental method of determining distances to astronomical objects. The best ground-based parallax measurements can achieve accuracies of ~1 milliarcsecond, comparable with the typical accuracies achieved by the ESA Hipparcos astrometric satellite. This level of accuracy allows us to obtain reliable distances and luminosities for main sequence stars, subgiants, red giants and even a number of metal poor subdwarfs. However, with an effective distance limit of 100-150 parsecs, the sampling volume includes less than a handful of rarer, shorter-lived celestial objects. In particular, there are no RR Lyraes or Cepheids, two of the principal calibrators in the extragalactic distance scale. There is only one instrument currently available that can achieve astrometry of higher accuracy - the Fine Guidance Sensors (FGS) on HST. The present team used the FGS to measure a parallax of 3.82+/10.2 milliarseconds for RR Lyrae, the nearest star of its type. this corresponds to a distance of 262 parsecs. The present program aims to improve the calibration by extending observations to four more relatively nearby RR Lyraes (XZ Cyg, UV Oct, RZ Cep and SU Dra) and two Pop II Cepheids (Kappa Pav and VY Pyx). |
GO 11213: Distances to Eclipsing M Dwarf Binaries
Artist's impression of a cool binary system
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Eclipsing binaries are stellar systems where the orbital plane lies in the line of
sight, leading to the components undergoing mutual eclipses. These systems are
extremely powerful probes of stellar properties, since (given the appropriate radial
velocity measurements) they permit direct measurement
of |
GO 11289: SL2S - The Strong Lensing Legacy Survey
ACS images of galaxy-galaxy Einstein ring lenses from the Sloan survey
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Gravitational lensing is a consequence the theory of general relativity. Its importance as an astrophysical tool first became apparent with the realisation (in 1979) that the quasar pair Q0957+561 actually comprised two lensed images of the same background quasar. In the succeeding years, lensing has been used primarily to probe the mass distribution of galaxy clusters, using theoretical models to analyse the arcs and arclets that are produced by strong lensing of background galaxies, and the large-scale mass distribution, through analysis of weak lensing effects on galaxy morphologies. Gravitational lensing can also be used to investigate the mass distribution of individual galaxies. Until recently, the most common background sources were quasars. Galaxy-galaxy lenses, however, offer a distinct advantage, since the background source is extended, and therefore imposes a stronger constraints on the mass distribution of the lensing galaxy than a point-source QSO. The CFHT Legacy survey provides a powerful tool for identifying candidate galaxy-galaxy lenses. Optical ground-based imaging, even from Hawaii, cannot match the results from a 2.4-metre telescope in orbit. Thus, the present program is using WFPC2 imaging to verify the nature of those candidates. The high resolution images can then be analysed to model the underlying mass distribution. |