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Published February 20, 2003 | Published + Submitted
Journal Article Open

Cosmic Microwave Background Anisotropy Measurement from Python V

Coble, K.
Dodelson, S.
Dragovan, M.
Ganga, K.
Knox, L.
Kovac, J.
Ratra, B.
Souradeep, T.

Abstract

We analyze observations of the microwave sky made with the Python experiment in its fifth year of operation at the Amundsen-Scott South Pole Station in Antarctica. After modeling the noise and constructing a map, we extract the cosmic signal from the data. We simultaneously estimate the angular power spectrum in eight bands ranging from large (ℓ ~ 40) to small (ℓ ~ 260) angular scales, with power detected in the first six bands. There is a significant rise in the power spectrum from large to smaller (ℓ ~ 200) scales, consistent with that expected from acoustic oscillations in the early universe. We compare this Python V map to a map made from data taken in the third year of Python. Python III observations were made at a frequency of 90 GHz and covered a subset of the region of the sky covered by Python V observations, which were made at 40 GHz. Good agreement is obtained both visually (with a filtered version of the map) and via a likelihood ratio test.

Additional Information

© 2003. The American Astronomical Society. Received 2001 December 20; accepted 2002 October 22. This work was supported by the James S. McDonnell Foundation, PYI grant NSF AST 90-57089, and the NSF under a cooperative agreement with the Center for Astrophysical Research in Antarctica (CARA), grant NSF OPP 89-20223. CARA is an NSF Science and Technology Center. K. C. is supported by NSF grant AST 01-04465. The work of S. D. was supported by the DOE and by NASA grant NAG 5-10842 at Fermilab and by NSF grant PHY-0079251 at Chicago. B. R. and T. S. acknowledge support from NSF CAREER grant AST 98-75031.

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