The JCMT BISTRO Survey: The magnetic field strength in the Orion A filament

We determine the magnetic field strength in the OMC 1 region of the Orion A filament via a new implementation of the Chandrasekhar-Fermi method using observations performed as part of the James Clerk Maxwell Telescope (JCMT) B-Fields In Star-Forming Region Observations (BISTRO) survey with the POL-2...

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Veröffentlicht in:	arXiv.org 2017-07
Hauptverfasser:	Pattle, Kate, Ward-Thompson, Derek, Berry, David, Hatchell, Jennifer, Chen, Huei-Ru, Pon, Andy, Koch, Patrick M, Kwon, Woojin, Kim, Jongsoo, Bastien, Pierre, Cho, Jungyeon, Coudé, Simon, James Di Francesco, Fuller, Gary, Furuya, Ray S, Graves, Sarah F, Johnstone, Doug, Kirk, Jason, Kwon, Jungmi, Chang Won Lee, Matthews, Brenda C, Mottram, Joseph C, Parsons, Harriet, Sadavoy, Sarah, Shinnaga, Hiroko, Soam, Archana, Hasegawa, Tetsuo, Shih-Ping, Lai, Qiu, Keping, Friberg, Per
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Sprache:	eng
Schlagworte:	Clumps Distortion Ejecta Field strength Flux density Gravitation Magnetic fields Magnetism Masking Mathematical morphology Morphology Outflow Physics - Astrophysics of Galaxies Potential energy Star formation
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creator	Pattle, Kate Ward-Thompson, Derek Berry, David Hatchell, Jennifer Chen, Huei-Ru Pon, Andy Koch, Patrick M Kwon, Woojin Kim, Jongsoo Bastien, Pierre Cho, Jungyeon Coudé, Simon James Di Francesco Fuller, Gary Furuya, Ray S Graves, Sarah F Johnstone, Doug Kirk, Jason Kwon, Jungmi Chang Won Lee Matthews, Brenda C Mottram, Joseph C Parsons, Harriet Sadavoy, Sarah Shinnaga, Hiroko Soam, Archana Hasegawa, Tetsuo Shih-Ping, Lai Qiu, Keping Friberg, Per
description	We determine the magnetic field strength in the OMC 1 region of the Orion A filament via a new implementation of the Chandrasekhar-Fermi method using observations performed as part of the James Clerk Maxwell Telescope (JCMT) B-Fields In Star-Forming Region Observations (BISTRO) survey with the POL-2 instrument. We combine BISTRO data with archival SCUBA-2 and HARP observations to find a plane-of-sky magnetic field strength in OMC 1 of $B_{\rm pos}=6.6\pm4.7$ mG, where $\delta B_{\rm pos}=4.7$ mG represents a predominantly systematic uncertainty. We develop a new method for measuring angular dispersion, analogous to unsharp masking. We find a magnetic energy density of $\sim1.7\times 10^{-7}$ Jm$^{-3}$ in OMC 1, comparable both to the gravitational potential energy density of OMC 1 ($\sim 10^{-7}$ Jm$^{-3}$), and to the energy density in the Orion BN/KL outflow ($\sim 10^{-7}$ Jm$^{-3}$). We find that neither the Alfv\'{e}n velocity in OMC 1 nor the velocity of the super-Alfv\'{e}nic outflow ejecta is sufficiently large for the BN/KL outflow to have caused large-scale distortion of the local magnetic field in the $\sim$500-year lifetime of the outflow. Hence, we propose that the hour-glass field morphology in OMC 1 is caused by the distortion of a primordial cylindrically-symmetric magnetic field by the gravitational fragmentation of the filament and/or the gravitational interaction of the BN/KL and S clumps. We find that OMC 1 is currently in or near magnetically-supported equilibrium, and that the current large-scale morphology of the BN/KL outflow is regulated by the geometry of the magnetic field in OMC 1, and not vice versa.
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We combine BISTRO data with archival SCUBA-2 and HARP observations to find a plane-of-sky magnetic field strength in OMC 1 of $B_{\rm pos}=6.6\pm4.7$ mG, where $\delta B_{\rm pos}=4.7$ mG represents a predominantly systematic uncertainty. We develop a new method for measuring angular dispersion, analogous to unsharp masking. We find a magnetic energy density of $\sim1.7\times 10^{-7}$ Jm$^{-3}$ in OMC 1, comparable both to the gravitational potential energy density of OMC 1 ($\sim 10^{-7}$ Jm$^{-3}$), and to the energy density in the Orion BN/KL outflow ($\sim 10^{-7}$ Jm$^{-3}$). We find that neither the Alfv\'{e}n velocity in OMC 1 nor the velocity of the super-Alfv\'{e}nic outflow ejecta is sufficiently large for the BN/KL outflow to have caused large-scale distortion of the local magnetic field in the $\sim$500-year lifetime of the outflow. 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We combine BISTRO data with archival SCUBA-2 and HARP observations to find a plane-of-sky magnetic field strength in OMC 1 of $B_{\rm pos}=6.6\pm4.7$ mG, where $\delta B_{\rm pos}=4.7$ mG represents a predominantly systematic uncertainty. We develop a new method for measuring angular dispersion, analogous to unsharp masking. We find a magnetic energy density of $\sim1.7\times 10^{-7}$ Jm$^{-3}$ in OMC 1, comparable both to the gravitational potential energy density of OMC 1 ($\sim 10^{-7}$ Jm$^{-3}$), and to the energy density in the Orion BN/KL outflow ($\sim 10^{-7}$ Jm$^{-3}$). We find that neither the Alfv\'{e}n velocity in OMC 1 nor the velocity of the super-Alfv\'{e}nic outflow ejecta is sufficiently large for the BN/KL outflow to have caused large-scale distortion of the local magnetic field in the $\sim$500-year lifetime of the outflow. Hence, we propose that the hour-glass field morphology in OMC 1 is caused by the distortion of a primordial cylindrically-symmetric magnetic field by the gravitational fragmentation of the filament and/or the gravitational interaction of the BN/KL and S clumps. We find that OMC 1 is currently in or near magnetically-supported equilibrium, and that the current large-scale morphology of the BN/KL outflow is regulated by the geometry of the magnetic field in OMC 1, and not vice versa.</description><subject>Clumps</subject><subject>Distortion</subject><subject>Ejecta</subject><subject>Field strength</subject><subject>Flux density</subject><subject>Gravitation</subject><subject>Magnetic fields</subject><subject>Magnetism</subject><subject>Masking</subject><subject>Mathematical morphology</subject><subject>Morphology</subject><subject>Outflow</subject><subject>Physics - Astrophysics of Galaxies</subject><subject>Potential energy</subject><subject>Star formation</subject><issn>2331-8422</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2017</creationdate><recordtype>article</recordtype><sourceid>BENPR</sourceid><sourceid>GOX</sourceid><recordid>eNotj0tLw0AUhQdBsNT-AFcOuE6cufNK3NXgo1oJ2OzDNJlpU5JJnSTF_nvT1sXlwD2Hw_kQuqMk5JEQ5FH73-oQUkVUSATI-ApNgDEaRBzgBs26bkcIAalACDZBn9nW4I_kK8PPi1X2neLV4A_m-IRP_0ZvnOmrAtvK1CXuem_cpt_iyuF-tFNftQ7PR7fWjXH9Lbq2uu7M7F-nKHt9yZL3YJm-LZL5MtACVKAiTrUp-XiMALGUa26AEQuqkCzSvIhtSQVR6wjigkqmgWoluTSwtjambIruL7Vn0nzvq0b7Y34izs_EY-Lhktj79mcwXZ_v2sG7cVMORMkYhATF_gBpWlZ5</recordid><startdate>20170717</startdate><enddate>20170717</enddate><creator>Pattle, Kate</creator><creator>Ward-Thompson, Derek</creator><creator>Berry, David</creator><creator>Hatchell, Jennifer</creator><creator>Chen, Huei-Ru</creator><creator>Pon, Andy</creator><creator>Koch, Patrick M</creator><creator>Kwon, Woojin</creator><creator>Kim, Jongsoo</creator><creator>Bastien, Pierre</creator><creator>Cho, Jungyeon</creator><creator>Coudé, Simon</creator><creator>James Di Francesco</creator><creator>Fuller, Gary</creator><creator>Furuya, Ray S</creator><creator>Graves, Sarah F</creator><creator>Johnstone, Doug</creator><creator>Kirk, Jason</creator><creator>Kwon, Jungmi</creator><creator>Chang Won Lee</creator><creator>Matthews, Brenda C</creator><creator>Mottram, Joseph C</creator><creator>Parsons, Harriet</creator><creator>Sadavoy, Sarah</creator><creator>Shinnaga, Hiroko</creator><creator>Soam, Archana</creator><creator>Hasegawa, Tetsuo</creator><creator>Shih-Ping, Lai</creator><creator>Qiu, Keping</creator><creator>Friberg, Per</creator><general>Cornell University Library, arXiv.org</general><scope>8FE</scope><scope>8FG</scope><scope>ABJCF</scope><scope>ABUWG</scope><scope>AFKRA</scope><scope>AZQEC</scope><scope>BENPR</scope><scope>BGLVJ</scope><scope>CCPQU</scope><scope>DWQXO</scope><scope>HCIFZ</scope><scope>L6V</scope><scope>M7S</scope><scope>PIMPY</scope><scope>PQEST</scope><scope>PQQKQ</scope><scope>PQUKI</scope><scope>PRINS</scope><scope>PTHSS</scope><scope>GOX</scope></search><sort><creationdate>20170717</creationdate><title>The JCMT BISTRO Survey: The magnetic field strength in the Orion A filament</title><author>Pattle, Kate ; Ward-Thompson, Derek ; Berry, David ; Hatchell, Jennifer ; Chen, Huei-Ru ; Pon, Andy ; Koch, Patrick M ; Kwon, Woojin ; Kim, Jongsoo ; Bastien, Pierre ; Cho, Jungyeon ; Coudé, Simon ; James Di Francesco ; Fuller, Gary ; Furuya, Ray S ; Graves, Sarah F ; Johnstone, Doug ; Kirk, Jason ; Kwon, Jungmi ; Chang Won Lee ; Matthews, Brenda C ; Mottram, Joseph C ; Parsons, Harriet ; Sadavoy, Sarah ; Shinnaga, Hiroko ; Soam, Archana ; Hasegawa, Tetsuo ; Shih-Ping, Lai ; Qiu, Keping ; Friberg, Per</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a527-7841aed4aed3020f14a4e230f27c638a4c9fd1507b829c163a21a7646e2bff913</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2017</creationdate><topic>Clumps</topic><topic>Distortion</topic><topic>Ejecta</topic><topic>Field strength</topic><topic>Flux density</topic><topic>Gravitation</topic><topic>Magnetic fields</topic><topic>Magnetism</topic><topic>Masking</topic><topic>Mathematical morphology</topic><topic>Morphology</topic><topic>Outflow</topic><topic>Physics - 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We combine BISTRO data with archival SCUBA-2 and HARP observations to find a plane-of-sky magnetic field strength in OMC 1 of $B_{\rm pos}=6.6\pm4.7$ mG, where $\delta B_{\rm pos}=4.7$ mG represents a predominantly systematic uncertainty. We develop a new method for measuring angular dispersion, analogous to unsharp masking. We find a magnetic energy density of $\sim1.7\times 10^{-7}$ Jm$^{-3}$ in OMC 1, comparable both to the gravitational potential energy density of OMC 1 ($\sim 10^{-7}$ Jm$^{-3}$), and to the energy density in the Orion BN/KL outflow ($\sim 10^{-7}$ Jm$^{-3}$). We find that neither the Alfv\'{e}n velocity in OMC 1 nor the velocity of the super-Alfv\'{e}nic outflow ejecta is sufficiently large for the BN/KL outflow to have caused large-scale distortion of the local magnetic field in the $\sim$500-year lifetime of the outflow. Hence, we propose that the hour-glass field morphology in OMC 1 is caused by the distortion of a primordial cylindrically-symmetric magnetic field by the gravitational fragmentation of the filament and/or the gravitational interaction of the BN/KL and S clumps. We find that OMC 1 is currently in or near magnetically-supported equilibrium, and that the current large-scale morphology of the BN/KL outflow is regulated by the geometry of the magnetic field in OMC 1, and not vice versa.</abstract><cop>Ithaca</cop><pub>Cornell University Library, arXiv.org</pub><doi>10.48550/arxiv.1707.05269</doi><oa>free_for_read</oa></addata></record>
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subjects	Clumps Distortion Ejecta Field strength Flux density Gravitation Magnetic fields Magnetism Masking Mathematical morphology Morphology Outflow Physics - Astrophysics of Galaxies Potential energy Star formation
title	The JCMT BISTRO Survey: The magnetic field strength in the Orion A filament
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