The detection of polarized sources in the WMAP 5-year data is a very
difficult task. The maps are dominated by instrumental noise and only a handful
of sources show up as clear peaks in the Q and U maps. Optimal linear filters
applied at the position of known bright sources detect with a high level of
significance a polarized flux P from many more sources, but estimates of P are
liable to biases. Using a new technique, named the "filtered fusion technique",
we have detected in polarization, with a significance level greater than 99.99%
in at least one WMAP channel, 22 objects, 5 of which, however, do not have a
plausible low radio frequency counterpart and are therefore doubtful. Estimated
polarized fluxes P < 400 mJy at 23 GHz were found to be severely affected by
the Eddington bias. The corresponding polarized flux limit for Planck/LFI at 30
GHz, obtained via realistic simulations, is 300 mJy. We have also obtained
statistical estimates of, or upper limits to the mean polarization degrees of
bright WMAP sources at 23, 33, 41, and 61 GHz, finding that they are of a few
percent.Comment: 10 pages, 6 figures. Accepted for publication in Ap

Bock

D. Herranz

Eddington

F. Argüeso

G. De Zotti

Górski

Herranz

Homan

J. González-Nuevo

J. L. Sanz

Kuehr

L. Lanz

López-Caniego

M. López-Caniego

M. Massardi

Malik

Nailong

Rubiño-Martin

Sanz

Taylor

Tegmark

Wright

English

arXiv

Crossref

POLARIZATION OF THE
                    WMAP

arXiv:0909.4311The detection of polarized sources in the WMAP five-year data is a very difficult task. The maps are dominated by instrumental noise and only a handful of sources show up as clear peaks in the Q and U maps. Optimal linear filters applied at the position of known bright sources detect with a high level of significance a polarized flux P from many more sources, but estimates of P are liable to biases. Using a new technique, named the filtered fusion technique, we have detected in polarization, with a significance level greater than 99.99% in at least one WMAP channel, 22 objects, five of which, however, do not have a plausible low radio frequency counterpart and are therefore doubtful. Estimated polarized fluxes P < 400 mJy at 23 GHz were found to be severely affected by the Eddington bias. The corresponding polarized flux limit for Planck/LFI at 30 GHz, obtained via realistic simulations, is 300 mJy. We have also obtained statistical estimates of, or upper limits to the mean polarization degrees of bright WMAP sources at 23, 33, 41, and 61 GHz, finding that they are of a few percent.M.L.C. acknowledges a postdoctoral fellowship from the Spanish MEC in Cambridge (UK) and an EGEE-III postdoctoral contract at IFCA. J.G.N. acknowledges a researcher position grant at the SISSA-ISAS (Trieste). Partial financial support for this research has been provided to M.M., J.G.N., and G.D.Z. by the Italian ASI (contracts Planck LFI Activity of Phase E2 and I/016/07/0 “COFIS”), and to JLS by the Spanish MEC. L.L.
acknowledges a JAE-predoc fellowship from the Spanish CSIC.Peer Reviewe

López-Caniego, M.

Massardi, Marcella

González-Nuevo, J.

Lanz, L. F.

Herranz, D.

Zotti, G. de

Sanz, J. L.

Argüeso, Francisco

Digital.CSIC

Polarization of the WMAP point sources

López Caniego, Marcos

González-Nuevo González, Joaquín

Lanz Oca, Luis Fernando

Herránz Muñoz, Diego

De Zotti, Gianfranco

Sanz Estévez, José Luis

Argüeso Gómez, Francisco

Repositorio Institucional de la Universidad de Oviedo

Polarization of the wmap point sources

http://digibuo.uniovi.es/dspace/bitstream/10651/7173/1/8722.pdf

Polarization of the WMAP Point Sources

Polarization of the WMAP Point Sources

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Digital.CSIC

Repositorio Institucional de la Universidad de Oviedo