Planck intermediate results. XXXIV. The magnetic field structure in the   Rosette Nebula

Planck Collaboration: N. Aghanim; M. I. R. Alves; M. Arnaud; D.; Arzoumanian; J. Aumont; C. Baccigalupi; A. J. Banday; R. B. Barreiro; N.; Bartolo; E. Battaner; K. Benabed; A. Benoit-L\'evy; J.-P. Bernard; M.; Bersanelli; P. Bielewicz; A. Bonaldi; L. Bonavera; J. R. Bond; J. Borrill; F.; R. Bouchet; F. Boulanger; A. Bracco; C. Burigana; E. Calabrese; J.-F.; Cardoso; A. Catalano; A. Chamballu; H. C. Chiang; P. R. Christensen; S.; Colombi; L. P. L. Colombo; C. Combet; F. Couchot; B. P. Crill; A. Curto; F.; Cuttaia; L. Danese; R. D. Davies; R. J. Davis; P. de Bernardis; A. de Rosa,; G. de Zotti; J. Delabrouille; C. Dickinson; J. M. Diego; H. Dole; S.; Donzelli; O. Dor\'e; M. Douspis; A. Ducout; X. Dupac; G. Efstathiou; F.; Elsner; T. A. En{\ss}lin; H. K. Eriksen; E. Falgarone; K. Ferri\`ere; F.; Finelli; O. Forni; M. Frailis; A. A. Fraisse; E. Franceschi; A. Frejsel; S.; Galeotta; S. Galli; K. Ganga; T. Ghosh; M. Giard; E. Gjerl{\o}w; J.; Gonz\'alez-Nuevo; K. M. G\'orski; A. Gregorio; A. Gruppuso; V. Guillet; F. K.; Hansen; D. Hanson; D. L. Harrison; S. Henrot-Versill\'e; D. Herranz; S. R.; Hildebrandt; E. Hivon; M. Hobson; W. A. Holmes; A. Hornstrup; W. Hovest; K.; M. Huffenberger; G. Hurier; A. H. Jaffe; T. R. Jaffe; J. Jewell; M. Juvela,; R. Keskitalo; T. S. Kisner; J. Knoche; M. Kunz; H. Kurki-Suonio; G. Lagache,; J.-M. Lamarre; A. Lasenby; M. Lattanzi; C. R. Lawrence; R. Leonardi; F.; Levrier; M. Liguori; P. B. Lilje; M. Linden-V{\o}rnle; M. L\'opez-Caniego; P.; M. Lubin; J. F. Mac\'ias-P\'erez; B. Maffei; D. Maino; N. Mandolesi; A.; Mangilli; M. Maris; P. G. Martin; E. Mart\'inez-Gonz\'alez; S. Masi; S.; Matarrese; A. Melchiorri; L. Mendes; A. Mennella; M. Migliaccio; M.-A.; Miville-Desch\^enes; A. Moneti; L. Montier; G. Morgante; D. Mortlock; A.; Moss; D. Munshi; J. A. Murphy; P. Naselsky; F. Nati; P. Natoli; C. B.; Netterfield; F. Noviello; D. Novikov; I. Novikov; N. Oppermann; L. Pagano; F.; Pajot; R. Paladini; D. Paoletti; F. Pasian; G. Patanchon; O. Perdereau; V.; Pettorino; F. Piacentini; M. Piat; D. Pietrobon; S. Plaszczynski; E.; Pointecouteau; G. Polenta; N. Ponthieu; G. W. Pratt; G. Pr\'ezeau; S. Prunet,; J.-L. Puget; R. Rebolo; M. Reinecke; M. Remazeilles; C. Renault; A. Renzi; I.; Ristorcelli; G. Rocha; C. Rosset; M. Rossetti; G. Roudier; J. A.; Rubi\~no-Mart\'in; B. Rusholme; M. Sandri; D. Santos; M. Savelainen; G.; Savini; D. Scott; J. D. Soler; L. D. Spencer; V. Stolyarov; D. Sutton; A.-S.; Suur-Uski; J.-F. Sygnet; J. A. Tauber; L. Terenzi; L. Toffolatti; M. Tomasi,; M. Tristram; M. Tucci; J. Tuovinen; L. Valenziano; J. Valiviita; B. Van Tent,; P. Vielva; F. Villa; L. A. Wade; B. D. Wandelt; I. K. Wehus; H. Wiesemeyer,; D. Yvon; A. Zacchei; A. Zonca

arXiv:1501.00922·astro-ph.GA·February 10, 2016

Planck intermediate results. XXXIV. The magnetic field structure in the Rosette Nebula

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

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TL;DR

This study combines Planck polarization data and rotation measure observations to analyze the magnetic field structure of the Rosette Nebula, revealing its orientation, strength, and the influence of the expanding HII region.

Contribution

It provides an analytical model of the magnetic field evolution in the nebula and constrains the magnetic field orientation and strength using combined observational data.

Findings

01

Mean line-of-sight magnetic field ~3 microG

02

Magnetic field mostly aligned with Galactic plane

03

Field strength estimated between 6.5 and 9 microG

Abstract

Planck has mapped the polarized dust emission over the whole sky, making it possible to trace the Galactic magnetic field structure that pervades the interstellar medium (ISM). We combine polarization data from Planck with rotation measure (RM) observations towards a massive star-forming region, the Rosette Nebula in the Monoceros molecular cloud, to study its magnetic field structure and the impact of an expanding HII region on the morphology of the field. We derive an analytical solution for the magnetic field, assumed to evolve from an initially uniform configuration following the expansion of ionized gas and the formation of a shell of swept-up ISM. From the RM data we estimate a mean value of the line-of-sight component of the magnetic field of about 3microG (towards the observer) in the Rosette Nebula, for a uniform electron density of about 12cm-3. The dust shell that surrounds…

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