Dense cores in dark clouds. 10: Ammonia emission in the Perseus molecular cloud complex

Details Dense cores in dark clouds. 10: Ammonia emission in the Perseus molecular cloud complex Dense cores in dark clouds. 10: Ammonia emission in the Perseus molecular cloud complex

Sep 1994

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1994apj...433..117l&link_type=abstract

Astrophysical Journal, Part 1 (ISSN 0004-637X), vol. 433, no. 1, p. 117-130

Astronomy and Astrophysics

Astronomy

39

Ammonia, Interstellar Gas, Molecular Clouds, Molecular Spectra, Radio Astronomy, Radio Spectra, Sky Surveys (Astronomy), Star Formation, Astronomical Spectroscopy, Emission Spectra, Line Spectra, Stellar Mass

Scientific paper

We present a survey for dense material around young IRAS sources in the Perseus molecular cloud complex in the NH3 (J, K)=(1,1) line at 1.3 cm. NH3 emission was detected in eight, and mapped in seven, out of 10 positions chosen for study. The dense cores found typically have lower masses and narrower line widths than cores previously studied in Perseus and are located near sources of lower luminosity. NH3 cores are found throughout the Perseus complex; however, much of the detected dense gas is concentrated into two filamentary 'ridges' located in the western part. As a group, NH3 cores in Perseus have a mean line width of 0.6 km/s, mean radius of 0.12 pc, mean kinetic temperature of 13 K, and mean mass of 9 solar mass. These mean values are larger than the mean values for NH3 cores with associated stars in Taurus, but smaller than the mean values for cores associated with stars in Orion A. Some of the cores in Perseus are 'thermally dominated', with thermal and nonthermal line widths similar to most Taurus cores, while others are 'nonthermally dominated' and are more similar to the cores in Orion A. We conclude that the Perseus complex is intermediate in its star-forming potential between the predominantly low-mass star-producing regions like Taurus and the regions capable of the producing high-mass stars such as Orion A.

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