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CARMA SURVEY TOWARD INFRARED-BRIGHT NEARBY GALAXIES (STING). II. MOLECULAR GAS STAR FORMATION LAW AND DEPLETION TIME ACROSS THE BLUE SEQUENCE

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posted on 2024-08-06, 09:12 authored by Nurur Rahman, Alberto D. Bolatto, Rui Xue, Tony Wong, Adam K. Leroy, Fabian Walter, Frank Bigiel, Erik Rosolowsky, Deanne FisherDeanne Fisher, Stuart N. Vogel, Leo Blitz, Andrew A. West, Jürgen Ott
We present an analysis of the relationship between molecular gas and current star formation rate surface density at sub-kiloparsec and kiloparsec scales in a sample of 14 nearby star-forming galaxies. Measuring the relationship in the bright, high molecular gas surface density (∑H2 ≳ 20M⊙ pc?2) regions of the disks to minimize the contribution from diffuse extended emission, we find an approximately linear relation between molecular gas and star formation rate surface density, Nmol ∼ 0.96 ± 0.16, with a molecular gas depletion time, τdepmol ∼ 2.30 ± 1.32 Gyr. We show that in the molecular regions of our galaxies there are no clear correlations between τdepmol and the free-fall and effective Jeans dynamical times throughout the sample. We do not find strong trends in the power-law index of the spatially resolved molecular gas star formation law or the molecular gas depletion time across the range of galactic stellar masses sampled (M* ∼ 109.710 11.5M⊙). There is a trend, however, in global measurements that is particularly marked for low-mass galaxies. We suggest that this trend is probably due to the low surface brightness CO J = 10, and it is likely associated with changes in CO-to-H2 conversion factor.

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ISSN

0004-637X

Journal title

The Astrophysical Journal

Volume

745

Issue

2

Article number

article no. 183

Pagination

1 p

Publisher

Institute of Physics Publishing, Inc.

Copyright statement

Copyright © 2012 The American Astronomical Society. All rights reserved. The published version is reproduced here in accordance with the copyright policy of the publisher and can be also be located at https://doi.org/10.1088/0004-637X/745/2/183.

Language

eng

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