10938(  1) - 04/03/06 11:00  - [  1]

                  HUBBLE SPACE TELESCOPE OBSERVING PROGRAM 10938

Version: 1    Check-in Time: 03-Apr-2006 15:00:08

Title
HAGGLeRS: HST Archive Galaxy-Galaxy Lensing at high Resolution with Simulations
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Type             Cycle     Parallel Pointing Tolerance
AR               15        <none>
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Investigators
                                                                                     Contact?
    PI: Dr. Marusa Bradac                 Stanford University
   CoI: Dr. Philip J. Marshall            Stanford University                           N
   CoI: Prof. Roger D. Blandford          Stanford University                           N
   CoI: Prof. Peter Schneider             Universitaet Bonn, Inst fur Astrophysik       N
                                          und Extraterrestris
   CoI: Mr. Jan Hartlap                   Universitaet Bonn, Inst fur Astrophysik       N
                                          und Extraterrestris
   CoI: Dr. Edward A. Baltz               Stanford University                           N
   CoI: Dr. Marina Shmakova               Stanford University                           N

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Abstract

Galaxy-galaxy weak lensing is a powerful technique for probing (statistically) the
mass distributions of galaxies. By correlating the signal with the properties of the
visible matter, and comparing these results directly with high resolution, large
scale numerical simulations, we can begin to fill in some of the gaps in our
understanding of the physics of galaxy formation and evolution within the context of
the LCDM model. The ground-based studies in this field undertaken so far have been
limited by their resolution and depth, with relatively few distorted background
galaxies per lens. With the high resolution imaging afforded by ACS on HST, a much
higher source density is available, with sources visible near the centers of
galaxies where the signal is stronger. The ground-based studies have recovered their
precision by increasing the number of lenses: we propose to do likewise and measure
the galaxy-galaxy lensing signal in all suitable ACS images taken to date. The
repository of observations defined by the HAGGLeS Strong Lens Survey (Cycle 14
Legacy Archive proposal 10676; PI Marshall) is well-matched to this project: its
legacy of high level science products for all deep multi-filter pointings, covering
some 1.6 square degrees of sky, can be used directly here. The archive provides a
range of lens galaxy environments, from underdense voids to overdense clusters, in
which the galaxy-galaxy lensing signal may be investigated. The high satellite
distribution of the lenses themselves may be probed using measurements of the higher
order shape moments measurable with ACS; compiling results from the impressive sky
area observed to date makes for a galaxy-galaxy lensing survey competitive with, yet
complementary to, the wide-field surveys from the ground.
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