Bibcode
Planck Collaboration; Ade, P. A. R.; Alves, M. I. R.; Aniano, G.; Armitage-Caplan, C.; Arnaud, M.; Atrio-Barandela, F.; Aumont, J.; Baccigalupi, C.; Banday, A. J.; Barreiro, R. B.; Battaner, E.; Benabed, K.; Benoit-Lévy, A.; Bernard, J.-P.; Bersanelli, M.; Bielewicz, P.; Bock, J. J.; Bond, J. R.; Borrill, J.; Bouchet, F. R.; Boulanger, F.; Burigana, C.; Cardoso, J.-F.; Catalano, A.; Chamballu, A.; Chiang, H. C.; Colombo, L. P. L.; Combet, C.; Couchot, F.; Coulais, A.; Crill, B. P.; Curto, A.; Cuttaia, F.; Danese, L.; Davies, R. D.; Davis, R. J.; de Bernardis, P.; de Zotti, G.; Delabrouille, J.; Désert, F.-X.; Dickinson, C.; Diego, J. M.; Donzelli, S.; Doré, O.; Douspis, M.; Dunkley, J.; Dupac, X.; Enßlin, T. A.; Eriksen, H. K.; Falgarone, E.; Finelli, F.; Forni, O.; Frailis, M.; Fraisse, A. A.; Franceschi, E.; Galeotta, S.; Ganga, K.; Ghosh, T.; Giard, M.; González-Nuevo, J.; Górski, K. M.; Gregorio, A.; Gruppuso, A.; Guillet, V.; Hansen, F. K.; Harrison, D. L.; Helou, G.; Hernández-Monteagudo, C.; Hildebrandt, S. R.; Hivon, E.; Hobson, M.; Holmes, W. A.; Hornstrup, A.; Jaffe, A. H.; Jaffe, T. R.; Jones, W. C.; Keihänen, E.; Keskitalo, R.; Kisner, T. S.; Kneissl, R.; Knoche, J.; Kunz, M.; Kurki-Suonio, H.; Lagache, G.; Lamarre, J.-M.; Lasenby, A.; Lawrence, C. R.; Leahy, J. P.; Leonardi, R.; Levrier, F.; Liguori, M.; Lilje, P. B.; Linden-Vørnle, M.; López-Caniego, M.; Lubin, P. M.; Macías-Pérez, J. F.; Maffei, B.; Magalhães, A. M.; Maino, D. et al.
Referencia bibliográfica
Astronomy and Astrophysics, Volume 576, id.A107, 25 pp.
Fecha de publicación:
4
2015
Revista
Número de citas
174
Número de citas referidas
158
Descripción
Planck has mapped the intensity and polarization of the sky at microwave
frequencies with unprecedented sensitivity. We use these data to
characterize the frequency dependence of dust emission. We make use of
the Planck 353 GHz I, Q, and U Stokes maps as dust templates, and
cross-correlate them with the Planck and WMAP data at 12 frequencies
from 23 to 353 GHz, over circular patches with 10° radius. The
cross-correlation analysis is performed for both intensity and
polarization data in a consistent manner. The results are corrected for
the chance correlation between the templates and the anisotropies of the
cosmic microwave background. We use a mask that focuses our analysis on
the diffuse interstellar medium at intermediate Galactic latitudes. We
determine the spectral indices of dust emission in intensity and
polarization between 100 and 353 GHz, for each sky patch. Both indices
are found to be remarkably constant over the sky. The mean values, 1.59
± 0.02 for polarization and 1.51 ± 0.01 for intensity, for
a mean dust temperature of 19.6 K, are close, but significantly
different (3.6σ). We determine the mean spectral energy
distribution (SED) of the microwave emission, correlated with the 353
GHz dust templates, by averaging the results of the correlation over all
sky patches. We find that the mean SED increases for decreasing
frequencies at ν< 60 GHz for both intensity and polarization. The
rise of the polarization SED towards low frequencies may be accounted
for by a synchrotron component correlated with dust, with no need for
any polarization of the anomalous microwave emission. We use a spectral
model to separate the synchrotron and dust polarization and to
characterize the spectral dependence of the dust polarization fraction.
The polarization fraction (p) of the dust emission decreases by (21
± 6)% from 353 to 70 GHz. We discuss this result within the
context of existing dust models. The decrease in p could indicate
differences in polarization efficiency among components of interstellar
dust (e.g., carbon versus silicate grains). Our observational results
provide inputs to quantify and optimize the separation between Galactic
and cosmological polarization.
Appendices are available in electronic form at http://www.aanda.org
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