The Microwave Anisotropy Probe* Mission

C. L. Bennett; M. Bay; M. Halpern; G. Hinshaw; C. Jackson; N. Jarosik; A. Kogut; M. Limon; S. S. Meyer; L. Page; D. N. Spergel; G. S. Tucker; D. T. Wilkinson; E. Wollack; E. L. Wright

doi:10.1086/345346

The Microwave Anisotropy Probe^* Mission

C. L. Bennett¹, M. Bay², M. Halpern³, G. Hinshaw¹, C. Jackson⁴, N. Jarosik⁵, A. Kogut¹, M. Limon^1,5, S. S. Meyer⁶, L. Page⁵, D. N. Spergel⁷, G. S. Tucker^1,8, D. T. Wilkinson⁵, E. Wollack¹, and E. L. Wright⁹

© 2003. The American Astronomical Society. All rights reserved. Printed in U.S.A.
The Astrophysical Journal, Volume 583, Number 1 Citation C. L. Bennett et al 2003 ApJ 583 1 DOI 10.1086/345346

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Author affiliations

¹ NASA Goddard Space Flight Center, Code 685, Greenbelt, MD 20771

² Jackson and Tull, 2705 Bladensburg Road, NE, Washington, DC 20018

³ Department of Physics, University of British Columbia, Vancouver, BC V6T 1Z4, Canada

⁴ NASA Goddard Space Flight Center, Code 556, Greenbelt, MD 20771

⁵ Department of Physics, Jadwin Hall, Princeton, NJ 08544

⁶ Astronomy and Physics, University of Chicago, 5640 South Ellis Street, LASP 209, Chicago, IL 60637

⁷ Department of Astrophysical Sciences, Princeton University, Princeton, NJ 08544

⁸ Department of Physics, Brown University, Providence, RI 02912

⁹ Astronomy Department, UCLA, Los Angeles, CA 90095

Dates

Received 2002 June 14
Accepted 2002 October 2

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Abstract

The purpose of the MAP mission is to determine the geometry, content, and evolution of the universe via a 13' full width half-maximum (FWHM) resolution full-sky map of the temperature anisotropy of the cosmic microwave background radiation with uncorrelated pixel noise, minimal systematic errors, multifrequency observations, and accurate calibration. These attributes were key factors in the success of NASA's Cosmic Background Explorer (COBE) mission, which made a 7° FWHM resolution full sky map, discovered temperature anisotropy, and characterized the fluctuations with two parameters, a power spectral index and a primordial amplitude. Following COBE, considerable progress has been made in higher resolution measurements of the temperature anisotropy. With 45 times the sensitivity and 33 times the angular resolution of the COBE mission, MAP will vastly extend our knowledge of cosmology. MAP will measure the physics of the photon-baryon fluid at recombination. From this, MAP measurements will constrain models of structure formation, the geometry of the universe, and inflation. In this paper we present a prelaunch overview of the design and characteristics of the MAP mission. This information will be necessary for a full understanding of the MAP data and results, and will also be of interest to scientists involved in the design of future cosmic microwave background experiments and/or space science missions.

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Footnotes

*
MAP is the result of a partnership between Princeton University and the NASA Goddard Space Flight Center. Scientific guidance is provided by the MAP Science Team.

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