Planck intermediate results. XV. A study of anomalous microwave emission   in Galactic clouds

Planck Collaboration: P. A. R. Ade; N. Aghanim; M. I. R. Alves; M.; Arnaud; F. Atrio-Barandela; J. Aumont; C. Baccigalupi; A. J. Banday; R. B.; Barreiro; E. Battaner; K. Benabed; A. Benoit-L\'evy; J.-P. Bernard; M.; Bersanelli; P. Bielewicz; J. Bobin; A. Bonaldi; J. R. Bond; J. Borrill; F. R.; Bouchet; F. Boulanger; C. Burigana; J.-F. Cardoso; S. Casassus; A. Catalano,; A. Chamballu; X. Chen; H. C. Chiang; L.-Y Chiang; P. R. Christensen; D. L.; Clements; S. Colombi; L. P. L. Colombo; F. Couchot; B. P. Crill; F. Cuttaia,; L. Danese; R. D. Davies; R. J. Davis; P. de Bernardis; A. de Rosa; G. de; Zotti; J. Delabrouille; F.-X. D\'esert; C. Dickinson; J. M. Diego; S.; Donzelli; O. Dor\'e; X. Dupac; T. A. En{\ss}lin; H. K. Eriksen; F. Finelli,; O. Forni; E. Franceschi; S. Galeotta; K. Ganga; R. T. G\'enova-Santos; T.; Ghosh; M. Giard; J. Gonz\'alez-Nuevo; K. M. G\'orski; A. Gregorio; A.; Gruppuso; F. K. Hansen; D. Harrison; G. Helou; C. Hern\'andez-Monteagudo; S.; R. Hildebrandt; E. Hivon; A. Hornstrup; A. H. Jaffe; T. R. Jaffe; W. C.; Jones; E. Keih\"anen; R. Keskitalo; R. Kneissl; J. Knoche; M. Kunz; H.; Kurki-Suonio; A. L\"ahteenm\"aki; J.-M. Lamarre; A. Lasenby; C. R. Lawrence,; R. Leonardi; M. Liguori; P. B. Lilje; M. Linden-V{\o}rnle; M.; L\'opez-Caniego; J. F. Mac\'ias-P\'erez; B. Maffei; D. Maino; N. Mandolesi,; D. J. Marshall; P. G. Martin; E. Mart\'inez-Gonz\'alez; S. Masi; M. Massardi,; S. Matarrese; P. Mazzotta; P. R. Meinhold; A. Melchiorri; L. Mendes; A.; Mennella; M. Migliaccio; M.-A. Miville-Desch\^enes; A. Moneti; L. Montier; G.; Morgante; D. Mortlock; D. Munshi; P. Naselsky; F. Nati; P. Natoli; H. U.; N{\o}rgaard-Nielsen; F. Noviello; D. Novikov; I. Novikov; C. A. Oxborrow; L.; Pagano; F. Pajot; R. Paladini; D. Paoletti; G. Patanchon; T. J. Pearson; M.; Peel; O. Perdereau; F. Perrotta; F. Piacentini; M. Piat; E. Pierpaoli; D.; Pietrobon; S. Plaszczynski; E. Pointecouteau; G. Polenta; N. Ponthieu; L.; Popa; G. W. Pratt; S. Prunet; J.-L. Puget; J. P. Rachen; R. Rebolo; W. Reich,; M. Reinecke; M. Remazeilles; C. Renault; S. Ricciardi; T. Riller; I.; Ristorcelli; G. Rocha; C. Rosset; G. Roudier; J. A. Rubi\~no-Mart\'in; B.; Rusholme; M. Sandri; G. Savini; D. Scott; L. D. Spencer; V. Stolyarov; D.; Sutton; A.-S. Suur-Uski; J.-F. Sygnet; J. A. Tauber; D. Tavagnacco; L.; Terenzi; C. T. Tibbs; L. Toffolatti; M. Tomasi; M. Tristram; M. Tucci; L.; Valenziano; J. Valiviita; B. Van Tent; J. Varis; P. Vielva; F. Villa; B. D.; Wandelt; R. Watson; A. Wilkinson; N. Ysard; D. Yvon; A. Zacchei; A. Zonca

arXiv:1309.1357·astro-ph.GA·February 21, 2018

Planck intermediate results. XV. A study of anomalous microwave emission in Galactic clouds

Planck Collaboration: P. A. R. Ade, N. Aghanim, M. I. R. Alves, M., Arnaud, F. Atrio-Barandela, J. Aumont, C. Baccigalupi, A. J. Banday, R. B., Barreiro, E. Battaner, K. Benabed, A. Benoit-L\'evy, J.-P. Bernard, M., Bersanelli, P. Bielewicz, J. Bobin, A. Bonaldi, J. R. Bond

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TL;DR

This study analyzes the properties and environment of anomalous microwave emission (AME) in Galactic clouds using WMAP and Planck data, confirming spinning dust as the likely source and exploring its correlation with dust temperature and environment.

Contribution

It provides a comprehensive statistical analysis of AME regions, identifying key environmental factors and confirming spinning dust as the emission mechanism.

Findings

01

42 of 98 sources show significant AME emission.

02

AME is associated with cooler dust temperatures (14-20 K).

03

AME emissivity decreases with increasing column density.

Abstract

Anomalous microwave emission (AME) is believed to be due to electric dipole radiation from small spinning dust grains. The aim of this paper is a statistical study of the basic properties of AME regions and the environment in which they emit. We used WMAP and Planck maps, combined with ancillary radio and IR data, to construct a sample of 98 candidate AME sources, assembling SEDs for each source using aperture photometry on 1deg-smoothed maps from 0.408 GHz up to 3000 GHz. Each spectrum is fitted with a simple model of free-free, synchrotron (where necessary), cosmic microwave background (CMB), thermal dust, and spinning dust components. We find that 42 of the 98 sources have significant (>5sigma) excess emission at frequencies between 20 and 60 GHz. An analysis of the potential contribution of optically thick free-free emission from ultra-compact HII regions, using IR colour criteria,…

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