SOFIA Far-infrared Imaging Polarimetry of M82 and NGC 253: Exploring the Supergalactic Wind

Terry Jay Jones; C. Darren Dowell; Enrique Lopez Rodriguez; Ellen G. Zweibel; Marc Berthoud; David T. Chuss; Paul F. Goldsmith; Ryan T. Hamilton; Shaul Hanany; Doyal A. Harper; Alex Lazarian; Leslie W. Looney; Joseph M. Michail; Mark R. Morris; Giles Novak; Fabio P. Santos; Kartik Sheth; Gordon J. Stacey; Johannes Staguhn; Ian W. Stephens; Konstantinos Tassis; Christopher Q. Trinh; C. G. Volpert; Michael Werner; Edward J. Wollack

doi:10.3847/2041-8213/aaf8b9

SOFIA Far-infrared Imaging Polarimetry of M82 and NGC 253: Exploring the Supergalactic Wind

Terry Jay Jones, C. Darren Dowell, Enrique Lopez Rodriguez, Ellen G. Zweibel, Marc Berthoud, David T. Chuss, Paul F. Goldsmith, Ryan T. Hamilton, Shaul Hanany, Doyal A. Harper, Alex Lazarian, Leslie W. Looney, Joseph M. Michail, Mark R. Morris, Giles Novak, Fabio P. Santos, Kartik Sheth, Gordon J. Stacey, Johannes Staguhn, Ian W. StephensKonstantinos Tassis, Christopher Q. Trinh, C. G. Volpert, Michael Werner, Edward J. Wollack

Physics and Astronomy (Twin Cities)

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17 Scopus citations

Abstract

We present far-infrared polarimetry observations of M82 at 53 and 154 μm and NGC 253 at 89 μm, which were taken with High-resolution Airborne Wideband Camera-plus (HAWC+) in polarimetry mode on the Stratospheric Observatory for Infrared Astronomy. The polarization of M82 at 53 μm clearly shows a magnetic field geometry perpendicular to the disk in the hot dust emission. For M82 the polarization at 154 μm shows a combination of field geometry perpendicular to the disk in the nuclear region, but closer to parallel to the disk away from the nucleus. The fractional polarization at 53 μm (154 μm) ranges from 7% (3%) off nucleus to 0.5% (0.3%) near the nucleus. A simple interpretation of the observations of M82 invokes a massive polar outflow, dragging the field along, from a region ∼700 pc in diameter that has entrained some of the gas and dust, creating a vertical field geometry seen mostly in the hotter (53 μm) dust emission. This outflow sits within a larger disk with a more typical planar geometry that more strongly contributes to the cooler (154 μm) dust emission. For NGC 253, the polarization at 89 μm is dominated by a planar geometry in the tilted disk, with weak indication of a vertical geometry above and below the plane from the nucleus. The polarization observations of NGC 253 at 53 μm were of a insufficient signal-to-noise ratio for a detailed analysis.

Original language	English (US)
Article number	L9
Journal	Astrophysical Journal Letters
Volume	870
Issue number	1
DOIs	https://doi.org/10.3847/2041-8213/aaf8b9
State	Published - Jan 1 2019

Bibliographical note

Publisher Copyright:
© 2019. The American Astronomical Society..

Keywords

galaxies: starburst
instrumentation: polarimeters

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10.3847/2041-8213/aaf8b9

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Jones, T. J., Dowell, C. D., Rodriguez, E. L., Zweibel, E. G., Berthoud, M., Chuss, D. T., Goldsmith, P. F., Hamilton, R. T., Hanany, S., Harper, D. A., Lazarian, A., Looney, L. W., Michail, J. M., Morris, M. R., Novak, G., Santos, F. P., Sheth, K., Stacey, G. J., Staguhn, J., ... Wollack, E. J. (2019). SOFIA Far-infrared Imaging Polarimetry of M82 and NGC 253: Exploring the Supergalactic Wind. Astrophysical Journal Letters, 870(1), Article L9. https://doi.org/10.3847/2041-8213/aaf8b9

Jones, TJ, Dowell, CD, Rodriguez, EL, Zweibel, EG, Berthoud, M, Chuss, DT, Goldsmith, PF, Hamilton, RT, Hanany, S, Harper, DA, Lazarian, A, Looney, LW, Michail, JM, Morris, MR, Novak, G, Santos, FP, Sheth, K, Stacey, GJ, Staguhn, J, Stephens, IW, Tassis, K, Trinh, CQ, Volpert, CG, Werner, M & Wollack, EJ 2019, 'SOFIA Far-infrared Imaging Polarimetry of M82 and NGC 253: Exploring the Supergalactic Wind', Astrophysical Journal Letters, vol. 870, no. 1, L9. https://doi.org/10.3847/2041-8213/aaf8b9

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title = "SOFIA Far-infrared Imaging Polarimetry of M82 and NGC 253: Exploring the Supergalactic Wind",

abstract = "We present far-infrared polarimetry observations of M82 at 53 and 154 μm and NGC 253 at 89 μm, which were taken with High-resolution Airborne Wideband Camera-plus (HAWC+) in polarimetry mode on the Stratospheric Observatory for Infrared Astronomy. The polarization of M82 at 53 μm clearly shows a magnetic field geometry perpendicular to the disk in the hot dust emission. For M82 the polarization at 154 μm shows a combination of field geometry perpendicular to the disk in the nuclear region, but closer to parallel to the disk away from the nucleus. The fractional polarization at 53 μm (154 μm) ranges from 7% (3%) off nucleus to 0.5% (0.3%) near the nucleus. A simple interpretation of the observations of M82 invokes a massive polar outflow, dragging the field along, from a region ∼700 pc in diameter that has entrained some of the gas and dust, creating a vertical field geometry seen mostly in the hotter (53 μm) dust emission. This outflow sits within a larger disk with a more typical planar geometry that more strongly contributes to the cooler (154 μm) dust emission. For NGC 253, the polarization at 89 μm is dominated by a planar geometry in the tilted disk, with weak indication of a vertical geometry above and below the plane from the nucleus. The polarization observations of NGC 253 at 53 μm were of a insufficient signal-to-noise ratio for a detailed analysis.",

keywords = "galaxies: starburst, instrumentation: polarimeters",

author = "Jones, {Terry Jay} and Dowell, {C. Darren} and Rodriguez, {Enrique Lopez} and Zweibel, {Ellen G.} and Marc Berthoud and Chuss, {David T.} and Goldsmith, {Paul F.} and Hamilton, {Ryan T.} and Shaul Hanany and Harper, {Doyal A.} and Alex Lazarian and Looney, {Leslie W.} and Michail, {Joseph M.} and Morris, {Mark R.} and Giles Novak and Santos, {Fabio P.} and Kartik Sheth and Stacey, {Gordon J.} and Johannes Staguhn and Stephens, {Ian W.} and Konstantinos Tassis and Trinh, {Christopher Q.} and Volpert, {C. G.} and Michael Werner and Wollack, {Edward J.}",

note = "Publisher Copyright: {\textcopyright} 2019. The American Astronomical Society..",

year = "2019",

month = jan,

day = "1",

doi = "10.3847/2041-8213/aaf8b9",

language = "English (US)",

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TY - JOUR

T1 - SOFIA Far-infrared Imaging Polarimetry of M82 and NGC 253

T2 - Exploring the Supergalactic Wind

AU - Jones, Terry Jay

AU - Dowell, C. Darren

AU - Rodriguez, Enrique Lopez

AU - Zweibel, Ellen G.

AU - Berthoud, Marc

AU - Chuss, David T.

AU - Goldsmith, Paul F.

AU - Hamilton, Ryan T.

AU - Hanany, Shaul

AU - Harper, Doyal A.

AU - Lazarian, Alex

AU - Looney, Leslie W.

AU - Michail, Joseph M.

AU - Morris, Mark R.

AU - Novak, Giles

AU - Santos, Fabio P.

AU - Sheth, Kartik

AU - Stacey, Gordon J.

AU - Staguhn, Johannes

AU - Stephens, Ian W.

AU - Tassis, Konstantinos

AU - Trinh, Christopher Q.

AU - Volpert, C. G.

AU - Werner, Michael

AU - Wollack, Edward J.

PY - 2019/1/1

Y1 - 2019/1/1

N2 - We present far-infrared polarimetry observations of M82 at 53 and 154 μm and NGC 253 at 89 μm, which were taken with High-resolution Airborne Wideband Camera-plus (HAWC+) in polarimetry mode on the Stratospheric Observatory for Infrared Astronomy. The polarization of M82 at 53 μm clearly shows a magnetic field geometry perpendicular to the disk in the hot dust emission. For M82 the polarization at 154 μm shows a combination of field geometry perpendicular to the disk in the nuclear region, but closer to parallel to the disk away from the nucleus. The fractional polarization at 53 μm (154 μm) ranges from 7% (3%) off nucleus to 0.5% (0.3%) near the nucleus. A simple interpretation of the observations of M82 invokes a massive polar outflow, dragging the field along, from a region ∼700 pc in diameter that has entrained some of the gas and dust, creating a vertical field geometry seen mostly in the hotter (53 μm) dust emission. This outflow sits within a larger disk with a more typical planar geometry that more strongly contributes to the cooler (154 μm) dust emission. For NGC 253, the polarization at 89 μm is dominated by a planar geometry in the tilted disk, with weak indication of a vertical geometry above and below the plane from the nucleus. The polarization observations of NGC 253 at 53 μm were of a insufficient signal-to-noise ratio for a detailed analysis.

AB - We present far-infrared polarimetry observations of M82 at 53 and 154 μm and NGC 253 at 89 μm, which were taken with High-resolution Airborne Wideband Camera-plus (HAWC+) in polarimetry mode on the Stratospheric Observatory for Infrared Astronomy. The polarization of M82 at 53 μm clearly shows a magnetic field geometry perpendicular to the disk in the hot dust emission. For M82 the polarization at 154 μm shows a combination of field geometry perpendicular to the disk in the nuclear region, but closer to parallel to the disk away from the nucleus. The fractional polarization at 53 μm (154 μm) ranges from 7% (3%) off nucleus to 0.5% (0.3%) near the nucleus. A simple interpretation of the observations of M82 invokes a massive polar outflow, dragging the field along, from a region ∼700 pc in diameter that has entrained some of the gas and dust, creating a vertical field geometry seen mostly in the hotter (53 μm) dust emission. This outflow sits within a larger disk with a more typical planar geometry that more strongly contributes to the cooler (154 μm) dust emission. For NGC 253, the polarization at 89 μm is dominated by a planar geometry in the tilted disk, with weak indication of a vertical geometry above and below the plane from the nucleus. The polarization observations of NGC 253 at 53 μm were of a insufficient signal-to-noise ratio for a detailed analysis.

KW - galaxies: starburst

KW - instrumentation: polarimeters

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U2 - 10.3847/2041-8213/aaf8b9

DO - 10.3847/2041-8213/aaf8b9

M3 - Article

AN - SCOPUS:85059834363

SN - 2041-8205

VL - 870

JO - Astrophysical Journal Letters

JF - Astrophysical Journal Letters

IS - 1

M1 - L9

ER -

SOFIA Far-infrared Imaging Polarimetry of M82 and NGC 253: Exploring the Supergalactic Wind

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