The JCMT BISTRO Survey: Multiwavelength polarimetry of bright regions in NGC 2071 in the far-infrared/submillimetre range, with POL-2 and HAWC+

Lapo Fanciullo; Francisca Kemper; Kate Pattle; Patrick M. Koch; Sarah Sadavoy; Simon CoudCrossed D Sign©; Archana Soam; Thiem Hoang; Takashi Onaka; Valentin J.M. Le Gouellec; Doris Arzoumanian; David Berry; Chakali Eswaraiah; Eun Jung Chung; Ray Furuya; Charles L.H. Hull; Jihye Hwang; Douglas Johnstone; Ji Hyun Kang; Kyoung Hee Kim; Florian Kirchschlager; Vera Könyves; Jungmi Kwon; Woojin Kwon; Shih Ping Lai; Chang Won Lee; Tie Liu; A. Ran Lyo; Ian Stephens; Motohide Tamura; Xindi Tang; Derek Ward-Thompson; Anthony Whitworth; Hiroko Shinnaga

doi:10.1093/mnras/stac528

The JCMT BISTRO Survey: Multiwavelength polarimetry of bright regions in NGC 2071 in the far-infrared/submillimetre range, with POL-2 and HAWC+

Lapo Fanciullo, Francisca Kemper, Kate Pattle, Patrick M. Koch, Sarah Sadavoy, Simon CoudCrossed D Sign©, Archana Soam, Thiem Hoang, Takashi Onaka, Valentin J.M. Le Gouellec, Doris Arzoumanian, David Berry, Chakali Eswaraiah, Eun Jung Chung, Ray Furuya, Charles L.H. Hull, Jihye Hwang, Douglas Johnstone, Ji Hyun Kang, Kyoung Hee KimFlorian Kirchschlager, Vera Könyves, Jungmi Kwon, Woojin Kwon, Shih Ping Lai, Chang Won Lee, Tie Liu, A. Ran Lyo, Ian Stephens, Motohide Tamura, Xindi Tang, Derek Ward-Thompson, Anthony Whitworth, Hiroko Shinnaga

Physics

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9 Citations (Scopus)

Abstract

Polarized dust emission is a key tracer in the study of interstellar medium and of star formation. The observed polarization, however, is a product of magnetic field structure, dust grain properties, and grain alignment efficiency, as well as their variations in the line of sight, making it difficult to interpret polarization unambiguously. The comparison of polarimetry at multiple wavelengths is a possible way of mitigating this problem. We use data from HAWC+ /SOFIA and from SCUBA-2/POL-2 (from the BISTRO survey) to analyse the NGC 2071 molecular cloud at 154, 214, and 850 $\mu$m. The polarization angle changes significantly with wavelength over part of NGC 2071, suggesting a change in magnetic field morphology on the line of sight as each wavelength best traces different dust populations. Other possible explanations are the existence of more than one polarization mechanism in the cloud or scattering from very large grains. The observed change of polarization fraction with wavelength, and the 214-To-154 $\mu$m polarization ratio in particular, are difficult to reproduce with current dust models under the assumption of uniform alignment efficiency. We also show that the standard procedure of using monochromatic intensity as a proxy for column density may produce spurious results at HAWC+wavelengths. Using both long-wavelength (POL-2, 850 $\mu$m) and short-wavelength (HAWC+, $\lesssim 200\, \mu$m) polarimetry is key in obtaining these results. This study clearly shows the importance of multi-wavelength polarimetry at submillimetre bands to understand the dust properties of molecular clouds and the relationship between magnetic field and star formation.

Original language	English
Pages (from-to)	1985-2002
Number of pages	18
Journal	Monthly Notices of the Royal Astronomical Society
Volume	512
Issue number	2
DOIs	https://doi.org/10.1093/mnras/stac528
Publication status	Published - 1 May 2022

Keywords

Ism: Clouds
Ism: Individual objects (ngc 2071)
Ism: Magnetic fields
Polarization
Submillimetre: ISM

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10.1093/mnras/stac528

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Fanciullo, L., Kemper, F., Pattle, K., Koch, P. M., Sadavoy, S., CoudCrossed D Sign©, S., Soam, A., Hoang, T., Onaka, T., Le Gouellec, V. J. M., Arzoumanian, D., Berry, D., Eswaraiah, C., Chung, E. J., Furuya, R., Hull, C. L. H., Hwang, J., Johnstone, D., Kang, J. H., ... Shinnaga, H. (2022). The JCMT BISTRO Survey: Multiwavelength polarimetry of bright regions in NGC 2071 in the far-infrared/submillimetre range, with POL-2 and HAWC+. Monthly Notices of the Royal Astronomical Society, 512(2), 1985-2002. https://doi.org/10.1093/mnras/stac528

@article{22cce110d59545e5bd110a997e83b30c,

title = "The JCMT BISTRO Survey: Multiwavelength polarimetry of bright regions in NGC 2071 in the far-infrared/submillimetre range, with POL-2 and HAWC+",

abstract = "Polarized dust emission is a key tracer in the study of interstellar medium and of star formation. The observed polarization, however, is a product of magnetic field structure, dust grain properties, and grain alignment efficiency, as well as their variations in the line of sight, making it difficult to interpret polarization unambiguously. The comparison of polarimetry at multiple wavelengths is a possible way of mitigating this problem. We use data from HAWC+ /SOFIA and from SCUBA-2/POL-2 (from the BISTRO survey) to analyse the NGC 2071 molecular cloud at 154, 214, and 850 $\mu$m. The polarization angle changes significantly with wavelength over part of NGC 2071, suggesting a change in magnetic field morphology on the line of sight as each wavelength best traces different dust populations. Other possible explanations are the existence of more than one polarization mechanism in the cloud or scattering from very large grains. The observed change of polarization fraction with wavelength, and the 214-To-154 $\mu$m polarization ratio in particular, are difficult to reproduce with current dust models under the assumption of uniform alignment efficiency. We also show that the standard procedure of using monochromatic intensity as a proxy for column density may produce spurious results at HAWC+wavelengths. Using both long-wavelength (POL-2, 850 $\mu$m) and short-wavelength (HAWC+, $\lesssim 200\, \mu$m) polarimetry is key in obtaining these results. This study clearly shows the importance of multi-wavelength polarimetry at submillimetre bands to understand the dust properties of molecular clouds and the relationship between magnetic field and star formation.",

keywords = "Ism: Clouds, Ism: Individual objects (ngc 2071), Ism: Magnetic fields, Polarization, Submillimetre: ISM",

author = "Lapo Fanciullo and Francisca Kemper and Kate Pattle and Koch, {Patrick M.} and Sarah Sadavoy and {CoudCrossed D Sign{\textcopyright}}, Simon and Archana Soam and Thiem Hoang and Takashi Onaka and {Le Gouellec}, {Valentin J.M.} and Doris Arzoumanian and David Berry and Chakali Eswaraiah and Chung, {Eun Jung} and Ray Furuya and Hull, {Charles L.H.} and Jihye Hwang and Douglas Johnstone and Kang, {Ji Hyun} and Kim, {Kyoung Hee} and Florian Kirchschlager and Vera K{\"o}nyves and Jungmi Kwon and Woojin Kwon and Lai, {Shih Ping} and Lee, {Chang Won} and Tie Liu and Lyo, {A. Ran} and Ian Stephens and Motohide Tamura and Xindi Tang and Derek Ward-Thompson and Anthony Whitworth and Hiroko Shinnaga",

note = "Publisher Copyright: {\textcopyright} 2022 The Author(s) Published by Oxford University Press on behalf of Royal Astronomical Society.",

year = "2022",

month = may,

day = "1",

doi = "10.1093/mnras/stac528",

language = "English",

volume = "512",

pages = "1985--2002",

journal = "Monthly Notices of the Royal Astronomical Society",

issn = "0035-8711",

number = "2",

}

Fanciullo, L, Kemper, F, Pattle, K, Koch, PM, Sadavoy, S, CoudCrossed D Sign©, S, Soam, A, Hoang, T, Onaka, T, Le Gouellec, VJM, Arzoumanian, D, Berry, D, Eswaraiah, C, Chung, EJ, Furuya, R, Hull, CLH, Hwang, J, Johnstone, D, Kang, JH, Kim, KH, Kirchschlager, F, Könyves, V, Kwon, J, Kwon, W, Lai, SP, Lee, CW, Liu, T, Lyo, AR, Stephens, I, Tamura, M, Tang, X, Ward-Thompson, D, Whitworth, A & Shinnaga, H 2022, 'The JCMT BISTRO Survey: Multiwavelength polarimetry of bright regions in NGC 2071 in the far-infrared/submillimetre range, with POL-2 and HAWC+', Monthly Notices of the Royal Astronomical Society, vol. 512, no. 2, pp. 1985-2002. https://doi.org/10.1093/mnras/stac528

The JCMT BISTRO Survey: Multiwavelength polarimetry of bright regions in NGC 2071 in the far-infrared/submillimetre range, with POL-2 and HAWC+. / Fanciullo, Lapo; Kemper, Francisca; Pattle, Kate et al.
In: Monthly Notices of the Royal Astronomical Society, Vol. 512, No. 2, 01.05.2022, p. 1985-2002.

Research output: Contribution to a Journal (Peer & Non Peer) › Article › peer-review

TY - JOUR

T1 - The JCMT BISTRO Survey

T2 - Multiwavelength polarimetry of bright regions in NGC 2071 in the far-infrared/submillimetre range, with POL-2 and HAWC+

AU - Fanciullo, Lapo

AU - Kemper, Francisca

AU - Pattle, Kate

AU - Koch, Patrick M.

AU - Sadavoy, Sarah

AU - CoudCrossed D Sign©, Simon

AU - Soam, Archana

AU - Hoang, Thiem

AU - Onaka, Takashi

AU - Le Gouellec, Valentin J.M.

AU - Arzoumanian, Doris

AU - Berry, David

AU - Eswaraiah, Chakali

AU - Chung, Eun Jung

AU - Furuya, Ray

AU - Hull, Charles L.H.

AU - Hwang, Jihye

AU - Johnstone, Douglas

AU - Kang, Ji Hyun

AU - Kim, Kyoung Hee

AU - Kirchschlager, Florian

AU - Könyves, Vera

AU - Kwon, Jungmi

AU - Kwon, Woojin

AU - Lai, Shih Ping

AU - Lee, Chang Won

AU - Liu, Tie

AU - Lyo, A. Ran

AU - Stephens, Ian

AU - Tamura, Motohide

AU - Tang, Xindi

AU - Ward-Thompson, Derek

AU - Whitworth, Anthony

AU - Shinnaga, Hiroko

PY - 2022/5/1

Y1 - 2022/5/1

N2 - Polarized dust emission is a key tracer in the study of interstellar medium and of star formation. The observed polarization, however, is a product of magnetic field structure, dust grain properties, and grain alignment efficiency, as well as their variations in the line of sight, making it difficult to interpret polarization unambiguously. The comparison of polarimetry at multiple wavelengths is a possible way of mitigating this problem. We use data from HAWC+ /SOFIA and from SCUBA-2/POL-2 (from the BISTRO survey) to analyse the NGC 2071 molecular cloud at 154, 214, and 850 $\mu$m. The polarization angle changes significantly with wavelength over part of NGC 2071, suggesting a change in magnetic field morphology on the line of sight as each wavelength best traces different dust populations. Other possible explanations are the existence of more than one polarization mechanism in the cloud or scattering from very large grains. The observed change of polarization fraction with wavelength, and the 214-To-154 $\mu$m polarization ratio in particular, are difficult to reproduce with current dust models under the assumption of uniform alignment efficiency. We also show that the standard procedure of using monochromatic intensity as a proxy for column density may produce spurious results at HAWC+wavelengths. Using both long-wavelength (POL-2, 850 $\mu$m) and short-wavelength (HAWC+, $\lesssim 200\, \mu$m) polarimetry is key in obtaining these results. This study clearly shows the importance of multi-wavelength polarimetry at submillimetre bands to understand the dust properties of molecular clouds and the relationship between magnetic field and star formation.

AB - Polarized dust emission is a key tracer in the study of interstellar medium and of star formation. The observed polarization, however, is a product of magnetic field structure, dust grain properties, and grain alignment efficiency, as well as their variations in the line of sight, making it difficult to interpret polarization unambiguously. The comparison of polarimetry at multiple wavelengths is a possible way of mitigating this problem. We use data from HAWC+ /SOFIA and from SCUBA-2/POL-2 (from the BISTRO survey) to analyse the NGC 2071 molecular cloud at 154, 214, and 850 $\mu$m. The polarization angle changes significantly with wavelength over part of NGC 2071, suggesting a change in magnetic field morphology on the line of sight as each wavelength best traces different dust populations. Other possible explanations are the existence of more than one polarization mechanism in the cloud or scattering from very large grains. The observed change of polarization fraction with wavelength, and the 214-To-154 $\mu$m polarization ratio in particular, are difficult to reproduce with current dust models under the assumption of uniform alignment efficiency. We also show that the standard procedure of using monochromatic intensity as a proxy for column density may produce spurious results at HAWC+wavelengths. Using both long-wavelength (POL-2, 850 $\mu$m) and short-wavelength (HAWC+, $\lesssim 200\, \mu$m) polarimetry is key in obtaining these results. This study clearly shows the importance of multi-wavelength polarimetry at submillimetre bands to understand the dust properties of molecular clouds and the relationship between magnetic field and star formation.

KW - Ism: Clouds

KW - Ism: Individual objects (ngc 2071)

KW - Ism: Magnetic fields

KW - Polarization

KW - Submillimetre: ISM

UR - http://www.scopus.com/inward/record.url?scp=85128507405&partnerID=8YFLogxK

U2 - 10.1093/mnras/stac528

DO - 10.1093/mnras/stac528

M3 - Article

AN - SCOPUS:85128507405

SN - 0035-8711

VL - 512

SP - 1985

EP - 2002

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 2

ER -

The JCMT BISTRO Survey: Multiwavelength polarimetry of bright regions in NGC 2071 in the far-infrared/submillimetre range, with POL-2 and HAWC+

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