Non-Gaussianity of the derived maps from the first-year WMAP data

2); 3); 4) ((1)Theoretical Astrophysics Center; Copenhagen; (2)Niels Bohr Institute; (3)Special Astrophysical Observatory; Lung-Yih Chiang (1); Michael J. Way (1; Nizhnij Arkhyz; Oleg V. Verkhodanov (1; Pavel D. Naselsky (1; Russia; (4)NASA Ames Research Center)

arxiv: astro-ph/0303643 · v2 · submitted 2003-03-30 · 🌌 astro-ph

Non-Gaussianity of the derived maps from the first-year WMAP data

Lung-Yih Chiang (1) , Pavel D. Naselsky (1 , 2) , Oleg V. Verkhodanov (1 , 3) , Michael J. Way (1 , 4) ((1)Theoretical Astrophysics Center , Copenhagen; (2)Niels Bohr Institute; (3)Special Astrophysical Observatory

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Nizhnij Arkhyz Russia; (4)NASA Ames Research Center)

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keywords non-gaussianityphasetestingbandsdataderivedfirst-yeargaussian

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We present non-Gaussianity testing on recently-released derived maps from the first-year WMAP data by Tegmark, de Oliveria-Costa and Hamilton. Our test is based on a phase mapping technique which has the advantage of testing non-Gaussianity at separate multipole bands. We show that their foreground-cleaned map is against the random-phase hypothesis at all 4 multipole bands centered around l = 150, 290, 400 and 500. Their Wiener-filtered map, on the other hand, is Gaussian for l < 250, and marginally Gaussian for 224 < l < 350. However, we see the evidence of non-Gaussianity for l > 350 as we detect certain degrees of phase coupling, hence against the random-phase hypothesis. Our phase mapping technique is particularly useful for testing the accuracy of component separation methods.

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Non-Gaussianity of the derived maps from the first-year WMAP data

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