Relative Alignment Between the Magnetic Field and Molecular Gas Structure in the Vela C Giant Molecular Cloud using Low and High Density Tracers

We compare the magnetic field orientation for the young giant molecular cloud Vela C inferred from 500-$\mu$m polarization maps made with the BLASTPol balloon-borne polarimeter to the orientation of structures in the integrated line emission maps from Mopra observations. Averaging over the entire...

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Veröffentlicht in:	arXiv.org 2019-04
Hauptverfasser:	Fissel, Laura M, Ade, Peter A R, Angilè, Francesco E, Ashton, Peter, Benton, Steven J, Che-Yu, Chen, Cunningham, Maria, Devlin, Mark J, Dober, Bradley, Friesen, Rachel, Fukui, Yasuo, Galitzki, Nicholas, Gandilo, Natalie N, Goodman, Alyssa, Green, Claire-Elise, Jones, Paul, Klein, Jeffrey, King, Patrick, Korotkov, Andrei L, Zhi-Yun, Li, Lowe, Vicki, Martin, Peter G, Matthews, Tristan G, Moncelsi, Lorenzo, Nakamura, Fumitaka, Netterfield, Calvin B, Newmark, Amanda, Novak, Giles, Pascale, Enzo, Poidevin, Frédérick, Santos, Fabio P, Savini, Giorgio, Scott, Douglas, Shariff, Jamil A, Soler, Juan D, Thomas, Nicholas E, Tucker, Carole E, Tucker, Gregory S, Ward-Thompson, Derek, Zucker, Catherine
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Sprache:	eng
Schlagworte:	Alignment Density Elongated structure Magnetic fields Magnetism Molecular clouds Molecular gases Molecular structure Orientation Physics - Astrophysics of Galaxies Polarimeters Radiative transfer Star formation Tracers
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creator	Fissel, Laura M Ade, Peter A R Angilè, Francesco E Ashton, Peter Benton, Steven J Che-Yu, Chen Cunningham, Maria Devlin, Mark J Dober, Bradley Friesen, Rachel Fukui, Yasuo Galitzki, Nicholas Gandilo, Natalie N Goodman, Alyssa Green, Claire-Elise Jones, Paul Klein, Jeffrey King, Patrick Korotkov, Andrei L Zhi-Yun, Li Lowe, Vicki Martin, Peter G Matthews, Tristan G Moncelsi, Lorenzo Nakamura, Fumitaka Netterfield, Calvin B Newmark, Amanda Novak, Giles Pascale, Enzo Poidevin, Frédérick Santos, Fabio P Savini, Giorgio Scott, Douglas Shariff, Jamil A Soler, Juan D Thomas, Nicholas E Tucker, Carole E Tucker, Gregory S Ward-Thompson, Derek Zucker, Catherine
description	We compare the magnetic field orientation for the young giant molecular cloud Vela C inferred from 500-$\mu$m polarization maps made with the BLASTPol balloon-borne polarimeter to the orientation of structures in the integrated line emission maps from Mopra observations. Averaging over the entire cloud we find that elongated structures in integrated line-intensity, or zeroth-moment maps, for low density tracers such as $^{12}$CO and $^{13}$CO $J$ $\rightarrow$ 1 - 0 are statistically more likely to align parallel to the magnetic field, while intermediate or high density tracers show (on average) a tendency for alignment perpendicular to the magnetic field. This observation agrees with previous studies of the change in relative orientation with column density in Vela C, and supports a model where the magnetic field is strong enough to have influenced the formation of dense gas structures within Vela C. The transition from parallel to no preferred/perpendicular orientation appears to happen between the densities traced by $^{13}$CO and by C$^{18}$O $J$ $\rightarrow$ 1 - 0. Using RADEX radiative transfer models to estimate the characteristic number density traced by each molecular line we find that the transition occurs at a molecular hydrogen number density of approximately $10^3$ cm$^{-3}$. We also see that the Centre-Ridge (the highest column density and most active star-forming region within Vela C) appears to have a transition at a lower number density, suggesting that this may depend on the evolutionary state of the cloud.
doi_str_mv	10.48550/arxiv.1804.08979
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Averaging over the entire cloud we find that elongated structures in integrated line-intensity, or zeroth-moment maps, for low density tracers such as $^{12}$CO and $^{13}$CO $J$ $\rightarrow$ 1 - 0 are statistically more likely to align parallel to the magnetic field, while intermediate or high density tracers show (on average) a tendency for alignment perpendicular to the magnetic field. This observation agrees with previous studies of the change in relative orientation with column density in Vela C, and supports a model where the magnetic field is strong enough to have influenced the formation of dense gas structures within Vela C. The transition from parallel to no preferred/perpendicular orientation appears to happen between the densities traced by $^{13}$CO and by C$^{18}$O $J$ $\rightarrow$ 1 - 0. Using RADEX radiative transfer models to estimate the characteristic number density traced by each molecular line we find that the transition occurs at a molecular hydrogen number density of approximately $10^3$ cm$^{-3}$. We also see that the Centre-Ridge (the highest column density and most active star-forming region within Vela C) appears to have a transition at a lower number density, suggesting that this may depend on the evolutionary state of the cloud.</description><identifier>EISSN: 2331-8422</identifier><identifier>DOI: 10.48550/arxiv.1804.08979</identifier><language>eng</language><publisher>Ithaca: Cornell University Library, arXiv.org</publisher><subject>Alignment ; Density ; Elongated structure ; Magnetic fields ; Magnetism ; Molecular clouds ; Molecular gases ; Molecular structure ; Orientation ; Physics - Astrophysics of Galaxies ; Polarimeters ; Radiative transfer ; Star formation ; Tracers</subject><ispartof>arXiv.org, 2019-04</ispartof><rights>2019. 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Averaging over the entire cloud we find that elongated structures in integrated line-intensity, or zeroth-moment maps, for low density tracers such as $^{12}$CO and $^{13}$CO $J$ $\rightarrow$ 1 - 0 are statistically more likely to align parallel to the magnetic field, while intermediate or high density tracers show (on average) a tendency for alignment perpendicular to the magnetic field. This observation agrees with previous studies of the change in relative orientation with column density in Vela C, and supports a model where the magnetic field is strong enough to have influenced the formation of dense gas structures within Vela C. The transition from parallel to no preferred/perpendicular orientation appears to happen between the densities traced by $^{13}$CO and by C$^{18}$O $J$ $\rightarrow$ 1 - 0. 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Averaging over the entire cloud we find that elongated structures in integrated line-intensity, or zeroth-moment maps, for low density tracers such as $^{12}$CO and $^{13}$CO $J$ $\rightarrow$ 1 - 0 are statistically more likely to align parallel to the magnetic field, while intermediate or high density tracers show (on average) a tendency for alignment perpendicular to the magnetic field. This observation agrees with previous studies of the change in relative orientation with column density in Vela C, and supports a model where the magnetic field is strong enough to have influenced the formation of dense gas structures within Vela C. The transition from parallel to no preferred/perpendicular orientation appears to happen between the densities traced by $^{13}$CO and by C$^{18}$O $J$ $\rightarrow$ 1 - 0. Using RADEX radiative transfer models to estimate the characteristic number density traced by each molecular line we find that the transition occurs at a molecular hydrogen number density of approximately $10^3$ cm$^{-3}$. We also see that the Centre-Ridge (the highest column density and most active star-forming region within Vela C) appears to have a transition at a lower number density, suggesting that this may depend on the evolutionary state of the cloud.</abstract><cop>Ithaca</cop><pub>Cornell University Library, arXiv.org</pub><doi>10.48550/arxiv.1804.08979</doi><oa>free_for_read</oa></addata></record>
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subjects	Alignment Density Elongated structure Magnetic fields Magnetism Molecular clouds Molecular gases Molecular structure Orientation Physics - Astrophysics of Galaxies Polarimeters Radiative transfer Star formation Tracers
title	Relative Alignment Between the Magnetic Field and Molecular Gas Structure in the Vela C Giant Molecular Cloud using Low and High Density Tracers
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