Weak Lensing from Space I: Instrumentation and Survey Strategy

Rhodes, Jason; Refregier, Alexandre; Massey, Richard; Albert, Justin; Bacon, David; Bernstein, Gary; Ellis, Richard; Jain, Bhuvnesh; Kim, Alex; Lampton, Mike; McKay, Tim; Akerlof, C; Aldering, G; Amanullah, R; Astier, P; Barrelet, E; Bebek, C; Bergstrom, L; Bercovitz, J; Bester, M; Bonissent, A; Bower, C; Carithers, W; Commins, E; Day, C; Deustua, S; DiGennaro, R; Ealet, A; Eriksson, M; Fruchter, A; Genat, J -F; Goldhaber, G; Goobar, A; Groom, D; Harris, S; Harvey, P; Heetderks, H; Holland, S; Huterer, D; Karcher, A; Kolbe, W; Kreiger, B; Lafever, R; Lamoureux, J; Levi, M; Devin, D; Linder, E; Loken, S; Malina, R; McKee, S; Miquel, R; Mortsell, E; Mostek, N; Mufson, S; Musser, J; Nugent, P; Oluseyi, H; Pain, R; Palaio, N; Pankow, D; Perlmutter, S; Pratt, R; Prieto, E; Robinson, K; Roe, N; Sholl, M; Schubnell, M; Smadja, G; Smoot, G; Spadafora, A; Tarle, G; Tomasch, A; von der Lippe, H; Vincent, D; Walder, J -P; Wang, G

Title: Weak Lensing from Space I: Instrumentation and Survey Strategy

Journal Article · Wed Apr 23 00:00:00 EDT 2003 · Astrophysical Journal

OSTI ID:823222

Rhodes, Jason; Refregier, Alexandre; Massey, Richard; Albert, Justin; Bacon, David; Bernstein, Gary; Ellis, Richard; Jain, Bhuvnesh; Kim, Alex; Lampton, Mike; McKay, Tim; Akerlof, C; Aldering, G; Amanullah, R; Astier, P; Barrelet, E; Bebek, C; Bergstrom, L; Bercovitz, J; Bester, M more »

A wide field space-based imaging telescope is necessary to fully exploit the technique of observing dark matter via weak gravitational lensing. This first paper in a three part series outlines the survey strategies and relevant instrumental parameters for such a mission. As a concrete example of hardware design, we consider the proposed Supernova/Acceleration Probe (SNAP). Using SNAP engineering models, we quantify the major contributions to this telescope's Point Spread Function (PSF). These PSF contributions are relevant to any similar wide field space telescope. We further show that the PSF of SNAP or a similar telescope will be smaller than current ground-based PSFs, and more isotropic and stable over time than the PSF of the Hubble Space Telescope. We outline survey strategies for two different regimes - a ''wide'' 300 square degree survey and a ''deep'' 15 square degree survey that will accomplish various weak lensing goals including statistical studies and dark matter mapping.

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Research Organization:: Lawrence Berkeley National Laboratory (LBNL), Berkeley, CA (United States)

Sponsoring Organization:: USDOE Director. Office of Science. Computational and Technology Research (US)

DOE Contract Number:: AC03-76SF00098

OSTI ID:: 823222

Report Number(s):: LBNL-53536; ASJOAB; R&D Project: PBR411; TRN: US0401682

Journal Information:: Astrophysical Journal, Vol. 20, Issue 4; Other Information: Journal Publication Date: 01/2004; PBD: 23 Apr 2003; ISSN 0004-637X

Country of Publication:: United States

Language:: English

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73 NUCLEAR PHYSICS AND RADIATION PHYSICS
CONCRETES
DESIGN
NONLUMINOUS MATTER
PROBES
TELESCOPES
GRAVITATIONAL LENSING SNAP

Title: Weak Lensing from Space I: Instrumentation and Survey Strategy

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