Why most molecular clouds are gravitationally dominated

Observational and theoretical evidence suggests that a substantial population of molecular clouds (MCs) appear to be unbound, dominated by turbulent motions. However, these estimations are made typically via the so-called viral parameter \(\alpha_{\rm vir}^{\rm class}\), which is an observational pr...

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Published inarXiv.org
Main Authors Ramírez-Galeano, Laura, Ballesteros-Paredes, Javier, Smith, Rowan, Camacho, Vianey, Zamora-Aviles, Manuel
Format Paper Journal Article
LanguageEnglish
Published Ithaca Cornell University Library, arXiv.org 18.06.2022
Subjects
Galactic structure
Galaxies
Molecular clouds
Parameters
Physics - Astrophysics of Galaxies
Tides
Turbulence
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Abstract Observational and theoretical evidence suggests that a substantial population of molecular clouds (MCs) appear to be unbound, dominated by turbulent motions. However, these estimations are made typically via the so-called viral parameter \(\alpha_{\rm vir}^{\rm class}\), which is an observational proxy to the virial ratio between the kinetic and the gravitational energy. This parameter intrinsically assumes that MCs are isolated, spherical, and with constant density. However, MCs are embedded in their parent galaxy and thus are subject to compressive and disruptive tidal forces from their galaxy, exhibit irregular shapes, and show substantial substructure. We, therefore, compare the typical estimations of \(\alpha_{\rm vir}^{\rm class}\) to a more precise definition of the virial parameter, \(\alpha_{\rm vir}^{\rm full}\), which accounts not only for the self-gravity (as \(\alpha_{\rm vir}^{\rm class}\)), but also for the tidal stresses, and thus, it can take negative (self-gravity) and positive (tides) values. While we recover the classical result that most of the clouds appear to be unbound, having \(\alpha_{\rm vir}^{\rm class} > 2\), we show that, with the more detailed definition considering the full gravitational energy, (i) 50\%\ of the total population is gravitationally bound, however, (ii) another 20\%\ is gravitationally dominated, but with tides tearing them apart; (iii) the source of those tides does not come from the galactic structure (bulge, halo, spiral arms), but from the molecular cloud complexes in which clouds reside, and probably (iv) from massive young stellar complexes, if they were present. (v) Finally, our results also suggest that, interstellar turbulence can have, at least partially, a gravitational origin.
AbstractList Observational and theoretical evidence suggests that a substantial population of molecular clouds (MCs) appear to be unbound, dominated by turbulent motions. However, these estimations are made typically via the so-called viral parameter \(\alpha_{\rm vir}^{\rm class}\), which is an observational proxy to the virial ratio between the kinetic and the gravitational energy. This parameter intrinsically assumes that MCs are isolated, spherical, and with constant density. However, MCs are embedded in their parent galaxy and thus are subject to compressive and disruptive tidal forces from their galaxy, exhibit irregular shapes, and show substantial substructure. We, therefore, compare the typical estimations of \(\alpha_{\rm vir}^{\rm class}\) to a more precise definition of the virial parameter, \(\alpha_{\rm vir}^{\rm full}\), which accounts not only for the self-gravity (as \(\alpha_{\rm vir}^{\rm class}\)), but also for the tidal stresses, and thus, it can take negative (self-gravity) and positive (tides) values. While we recover the classical result that most of the clouds appear to be unbound, having \(\alpha_{\rm vir}^{\rm class} > 2\), we show that, with the more detailed definition considering the full gravitational energy, (i) 50\%\ of the total population is gravitationally bound, however, (ii) another 20\%\ is gravitationally dominated, but with tides tearing them apart; (iii) the source of those tides does not come from the galactic structure (bulge, halo, spiral arms), but from the molecular cloud complexes in which clouds reside, and probably (iv) from massive young stellar complexes, if they were present. (v) Finally, our results also suggest that, interstellar turbulence can have, at least partially, a gravitational origin.
Observational and theoretical evidence suggests that a substantial population of molecular clouds (MCs) appear to be unbound, dominated by turbulent motions. However, these estimations are made typically via the so-called viral parameter $\alpha_{\rm vir}^{\rm class}$, which is an observational proxy to the virial ratio between the kinetic and the gravitational energy. This parameter intrinsically assumes that MCs are isolated, spherical, and with constant density. However, MCs are embedded in their parent galaxy and thus are subject to compressive and disruptive tidal forces from their galaxy, exhibit irregular shapes, and show substantial substructure. We, therefore, compare the typical estimations of $\alpha_{\rm vir}^{\rm class}$ to a more precise definition of the virial parameter, $\alpha_{\rm vir}^{\rm full}$, which accounts not only for the self-gravity (as $\alpha_{\rm vir}^{\rm class}$), but also for the tidal stresses, and thus, it can take negative (self-gravity) and positive (tides) values. While we recover the classical result that most of the clouds appear to be unbound, having $\alpha_{\rm vir}^{\rm class} > 2$, we show that, with the more detailed definition considering the full gravitational energy, (i) 50\%\ of the total population is gravitationally bound, however, (ii) another 20\%\ is gravitationally dominated, but with tides tearing them apart; (iii) the source of those tides does not come from the galactic structure (bulge, halo, spiral arms), but from the molecular cloud complexes in which clouds reside, and probably (iv) from massive young stellar complexes, if they were present. (v) Finally, our results also suggest that, interstellar turbulence can have, at least partially, a gravitational origin.
Author Zamora-Aviles, Manuel
Smith, Rowan
Ballesteros-Paredes, Javier
Camacho, Vianey
Ramírez-Galeano, Laura
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BackLink https://doi.org/10.1093/mnras/stac1848$$DView published paper (Access to full text may be restricted)
https://doi.org/10.48550/arXiv.2206.09187$$DView paper in arXiv
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Snippet Observational and theoretical evidence suggests that a substantial population of molecular clouds (MCs) appear to be unbound, dominated by turbulent motions....
Observational and theoretical evidence suggests that a substantial population of molecular clouds (MCs) appear to be unbound, dominated by turbulent motions....
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SubjectTerms Galactic structure
Galaxies
Molecular clouds
Parameters
Physics - Astrophysics of Galaxies
Tides
Turbulence
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Title Why most molecular clouds are gravitationally dominated
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