The early phase of multiple proto-stellar system emerging from collapse of molecular cloud under various initial thermal states

An attempt is made here to revisit structure formation in a proto-stellar cloud during the early phase of evolution. A molecular cloud subject to a set of various initial conditions in terms of initial temperature and amplitude of azimuthal density perturbation is investigated numerically. Special e...

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Published in	Astrophysics and space science Vol. 348; no. 2; pp. 327 - 335
Main Authors	Riaz, Rafil, Farooqui, Suhail Zaki, Vanaverbeke, Siegfried
Format	Journal Article
Language	English
Published	Dordrecht Springer Netherlands 01.12.2013 Springer Nature B.V
Subjects	Astrobiology Astronomy Astrophysics Astrophysics and Astroparticles Cores Cosmology Molecular biology Observations and Techniques Original Article Physical properties Physics Physics and Astronomy Space Exploration and Astronautics Space Sciences (including Extraterrestrial Physics Stars Thermal energy Smoothed particle hydrodynamics Binaries Interstellar medium Stellar dynamics Low-mass brown dwarfs
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Abstract	An attempt is made here to revisit structure formation in a proto-stellar cloud during the early phase of evolution. A molecular cloud subject to a set of various initial conditions in terms of initial temperature and amplitude of azimuthal density perturbation is investigated numerically. Special emphasis is on the analysis of ring- and spiral-type instabilities that have shown dependence on certain initial conditions chosen for a rotating solar mass cloud of molecular hydrogen. Generally, a star-forming hydrogen gas is considered to be initially at 10 K. We have found that a possible oscillation around this typical value can affect the fate of a collapsing cloud in terms of its evolving structural properties leading to proto-star formation. We explored the initial temperature range of the cloud between 8 K to 12 K and compared the physical properties of each within the first phase of proto-star formation. We suggest that the spiral structures are more likely to form in strongly perturbed molecular cores that initiate their phase of collapse from temperatures below 10 K, whereas cores with initial temperatures above 10 K develop, instead of a spiral structure, a ring-type structure which subsequently experiences fragmentation. A transition from a spiral to ring instability can be observed at a typical initial temperature of 10 K.
AbstractList	An attempt is made here to revisit structure formation in a proto-stellar cloud during the early phase of evolution. A molecular cloud subject to a set of various initial conditions in terms of initial temperature and amplitude of azimuthal density perturbation is investigated numerically. Special emphasis is on the analysis of ring- and spiral-type instabilities that have shown dependence on certain initial conditions chosen for a rotating solar mass cloud of molecular hydrogen. Generally, a star-forming hydrogen gas is considered to be initially at 10 K. We have found that a possible oscillation around this typical value can affect the fate of a collapsing cloud in terms of its evolving structural properties leading to proto-star formation. We explored the initial temperature range of the cloud between 8 K to 12 K and compared the physical properties of each within the first phase of proto-star formation. We suggest that the spiral structures are more likely to form in strongly perturbed molecular cores that initiate their phase of collapse from temperatures below 10 K, whereas cores with initial temperatures above 10 K develop, instead of a spiral structure, a ring-type structure which subsequently experiences fragmentation. A transition from a spiral to ring instability can be observed at a typical initial temperature of 10 K.[PUBLICATION ABSTRACT] An attempt is made here to revisit structure formation in a proto-stellar cloud during the early phase of evolution. A molecular cloud subject to a set of various initial conditions in terms of initial temperature and amplitude of azimuthal density perturbation is investigated numerically. Special emphasis is on the analysis of ring- and spiral-type instabilities that have shown dependence on certain initial conditions chosen for a rotating solar mass cloud of molecular hydrogen. Generally, a star-forming hydrogen gas is considered to be initially at 10 K. We have found that a possible oscillation around this typical value can affect the fate of a collapsing cloud in terms of its evolving structural properties leading to proto-star formation. We explored the initial temperature range of the cloud between 8 K to 12 K and compared the physical properties of each within the first phase of proto-star formation. We suggest that the spiral structures are more likely to form in strongly perturbed molecular cores that initiate their phase of collapse from temperatures below 10 K, whereas cores with initial temperatures above 10 K develop, instead of a spiral structure, a ring-type structure which subsequently experiences fragmentation. A transition from a spiral to ring instability can be observed at a typical initial temperature of 10 K. An attempt is made here to revisit structure formation in a proto-stellar cloud during the early phase of evolution. A molecular cloud subject to a set of various initial conditions in terms of initial temperature and amplitude of azimuthal density perturbation is investigated numerically. Special emphasis is on the analysis of ring- and spiral-type instabilities that have shown dependence on certain initial conditions chosen for a rotating solar mass cloud of molecular hydrogen. Generally, a star-forming hydrogen gas is considered to be initially at 10 K. We have found that a possible oscillation around this typical value can affect the fate of a collapsing cloud in terms of its evolving structural properties leading to proto-star formation. We explored the initial temperature range of the cloud between 8 K to 12 K and compared the physical properties of each within the first phase of proto-star formation. We suggest that the spiral structures are more likely to form in strongly perturbed molecular cores that initiate their phase of collapse from temperatures below 10 K, whereas cores with initial temperatures above 10 K develop, instead of a spiral structure, a ring-type structure which subsequently experiences fragmentation. A transition from a spiral to ring instability can be observed at a typical initial temperature of 10 K.
Author	Farooqui, Suhail Zaki Vanaverbeke, Siegfried Riaz, Rafil
Author_xml	– sequence: 1 givenname: Rafil surname: Riaz fullname: Riaz, Rafil email: rafilriaz@yahoo.com organization: Institute of Space & Planetary Astrophysics (ISPA), University of Karachi – sequence: 2 givenname: Suhail Zaki surname: Farooqui fullname: Farooqui, Suhail Zaki organization: Faculty of Engineering Sciences, National University of Science & Technology, PNS - JAUHAR – sequence: 3 givenname: Siegfried surname: Vanaverbeke fullname: Vanaverbeke, Siegfried organization: KU Leuven Campus Kortrijk, Centre for Mathematical Plasma Astrophysics, Department of Mathematics, KU Leuven
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SubjectTerms	Astrobiology Astronomy Astrophysics Astrophysics and Astroparticles Cores Cosmology Molecular biology Observations and Techniques Original Article Physical properties Physics Physics and Astronomy Space Exploration and Astronautics Space Sciences (including Extraterrestrial Physics Stars Thermal energy
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Title	The early phase of multiple proto-stellar system emerging from collapse of molecular cloud under various initial thermal states
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