The molecular environment of massive star forming cores associated with Class II methanol maser emission

S. N. Longmore; M. G. Burton; P. J. Barnes; T. Wong; C. R. Purcell; J. Ott

doi:10.1017/S1743921307012677

The molecular environment of massive star forming cores associated with Class II methanol maser emission

S. N. Longmore^*, M. G. Burton, P. J. Barnes, T. Wong, C. R. Purcell, J. Ott

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Methanol maser emission has proven to be an excellent signpost of regions undergoing massive star formation (MSF). To investigate their role as an evolutionary tracer, we have recently completed a large observing program with the ATCA to derive the dynamical and physical properties of molecular/ionised gas towards a sample of MSF regions traced by 6.7GHz methanol maser emission. We find that the molecular gas in many of these regions breaks up into multiple sub-clumps which we separate into groups based on their association with/without methanol maser and cm continuum emission. The temperature and dynamic state of the molecular gas is markedly different between the groups. Based on these differences, we attempt to assess the evolutionary state of the cores in the groups and thus investigate the role of class II methanol masers as a tracer of MSF.

Original language	English
Pages (from-to)	125-129
Number of pages	5
Journal	Proceedings of the International Astronomical Union
Volume	3
Issue number	S242
DOIs	https://doi.org/10.1017/S1743921307012677
Publication status	Published - Mar 2007
Externally published	Yes

Keywords

ISM: evolution
ISM: molecules
Line: profiles
Masers
Molecular data
Radio continuum: stars
Stars: early-type
Stars: formation

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10.1017/S1743921307012677

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title = "The molecular environment of massive star forming cores associated with Class II methanol maser emission",

abstract = "Methanol maser emission has proven to be an excellent signpost of regions undergoing massive star formation (MSF). To investigate their role as an evolutionary tracer, we have recently completed a large observing program with the ATCA to derive the dynamical and physical properties of molecular/ionised gas towards a sample of MSF regions traced by 6.7GHz methanol maser emission. We find that the molecular gas in many of these regions breaks up into multiple sub-clumps which we separate into groups based on their association with/without methanol maser and cm continuum emission. The temperature and dynamic state of the molecular gas is markedly different between the groups. Based on these differences, we attempt to assess the evolutionary state of the cores in the groups and thus investigate the role of class II methanol masers as a tracer of MSF.",

keywords = "ISM: evolution, ISM: molecules, Line: profiles, Masers, Molecular data, Radio continuum: stars, Stars: early-type, Stars: formation",

author = "Longmore, {S. N.} and Burton, {M. G.} and Barnes, {P. J.} and T. Wong and Purcell, {C. R.} and J. Ott",

year = "2007",

month = mar,

doi = "10.1017/S1743921307012677",

language = "English",

volume = "3",

pages = "125--129",

journal = "Proceedings of the International Astronomical Union",

issn = "1743-9213",

publisher = "Cambridge University Press (CUP)",

number = "S242",

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TY - JOUR

T1 - The molecular environment of massive star forming cores associated with Class II methanol maser emission

AU - Longmore, S. N.

AU - Burton, M. G.

AU - Barnes, P. J.

AU - Wong, T.

AU - Purcell, C. R.

AU - Ott, J.

PY - 2007/3

Y1 - 2007/3

N2 - Methanol maser emission has proven to be an excellent signpost of regions undergoing massive star formation (MSF). To investigate their role as an evolutionary tracer, we have recently completed a large observing program with the ATCA to derive the dynamical and physical properties of molecular/ionised gas towards a sample of MSF regions traced by 6.7GHz methanol maser emission. We find that the molecular gas in many of these regions breaks up into multiple sub-clumps which we separate into groups based on their association with/without methanol maser and cm continuum emission. The temperature and dynamic state of the molecular gas is markedly different between the groups. Based on these differences, we attempt to assess the evolutionary state of the cores in the groups and thus investigate the role of class II methanol masers as a tracer of MSF.

AB - Methanol maser emission has proven to be an excellent signpost of regions undergoing massive star formation (MSF). To investigate their role as an evolutionary tracer, we have recently completed a large observing program with the ATCA to derive the dynamical and physical properties of molecular/ionised gas towards a sample of MSF regions traced by 6.7GHz methanol maser emission. We find that the molecular gas in many of these regions breaks up into multiple sub-clumps which we separate into groups based on their association with/without methanol maser and cm continuum emission. The temperature and dynamic state of the molecular gas is markedly different between the groups. Based on these differences, we attempt to assess the evolutionary state of the cores in the groups and thus investigate the role of class II methanol masers as a tracer of MSF.

KW - ISM: evolution

KW - ISM: molecules

KW - Line: profiles

KW - Masers

KW - Molecular data

KW - Radio continuum: stars

KW - Stars: early-type

KW - Stars: formation

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U2 - 10.1017/S1743921307012677

DO - 10.1017/S1743921307012677

M3 - Article

AN - SCOPUS:38849162850

SN - 1743-9213

VL - 3

SP - 125

EP - 129

JO - Proceedings of the International Astronomical Union

JF - Proceedings of the International Astronomical Union

IS - S242

ER -

The molecular environment of massive star forming cores associated with Class II methanol maser emission

Abstract

Keywords

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