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Physical and chemical structure of dense cores in regions of high mass star formation

Published online by Cambridge University Press:  08 November 2005

Igor Zinchenko ,
Lev Pirogov ,
Paola Caselli ,
Lars E.B. Johansson ,
Sergey Malafeev  and
Barry Turner
Igor Zinchenko
Affiliation:
Institute of Applied Physics, Russian Academy of Sciences, Ulyanov str. 46, Nizhny Novgorod 603950, Russia email: zin@appl.sci-nnov.ru, pirogov@appl.sci-nnov.ru, malafeev_s@mail.ru
Lev Pirogov
Affiliation:
Institute of Applied Physics, Russian Academy of Sciences, Ulyanov str. 46, Nizhny Novgorod 603950, Russia email: zin@appl.sci-nnov.ru, pirogov@appl.sci-nnov.ru, malafeev_s@mail.ru
Paola Caselli
Affiliation:
Arcetri Astrophysical Observatory, Largo E. Fermi, 5, 50125 Firenze, Italy email: caselli@arcetri.astro.it
Lars E.B. Johansson
Affiliation:
Onsala Space Observatory, S-43992, Onsala, Sweden email: leb@oso.chalmers.se
Sergey Malafeev
Affiliation:
Institute of Applied Physics, Russian Academy of Sciences, Ulyanov str. 46, Nizhny Novgorod 603950, Russia email: zin@appl.sci-nnov.ru, pirogov@appl.sci-nnov.ru, malafeev_s@mail.ru
Barry Turner
Affiliation:
National Radio Astronomy Observatory, 520 Edgemont Road, Charlottesville, VA 22903-2475, USA email: bturner@nrao.edu
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Abstract

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We found that in regions of high mass star formation the CS emission correlates well with the dust continuum emission and is therefore a good tracer of the total mass while the N$_2$H$^+$ distribution is frequently very different. This is opposite to their typical behavior in low-mass cores. The behavior of other high density tracers varies from source to source but most of them are closer to CS. Radial density profiles in massive cores are fitted by power laws with indices about −1.6, as derived from the dust continuum emission. The radial temperature dependence on intermediate scales is close to the theoretically expected one for a centrally heated optically thin cloud. The velocity dispersion either remains constant or decreases from the core center to the edge. Several cores including those without known embedded IR sources show signs of infall motions. They can represent the earliest phases of massive protostars. There are implicit arguments in favor of small-scale clumpiness in the cores.

Keywords

astrochemistrystars: formationISM: abundancesISM: moleculesradio lines: ISM
Type
Contributed Papers
Information
Proceedings of the International Astronomical Union , Volume 1 , Symposium S227: Massive Star Birth: A Crossroads of Astrophysics , May 2005 , pp. 92 - 97
Copyright
© 2005 International Astronomical Union