Journal
ASTROPHYSICAL JOURNAL
Volume 604, Issue 1, Pages L49-L52Publisher
UNIV CHICAGO PRESS
DOI: 10.1086/383308
Keywords
ISM : clouds; ISM : kinematics and dynamics; ISM : magnetic fields; MHD; radiative transfer; turbulence
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The magnetic field strength in molecular clouds is a fundamental quantity for theories of star formation. It is estimated by Zeeman splitting measurements in a few dense molecular cores, but its volume-averaged value within large molecular clouds ( over several parsecs) is still uncertain. In this work, we provide a new method to constrain the average magnetic field strength in molecular clouds. We compare the power spectrum of gas density of molecular clouds with that of two 3503 numerical simulations of supersonic MHD turbulence. The numerical simulation with approximate equipartition of kinetic and magnetic energies (model A) yields the column density power spectrum P(k) proportional to k(-2.25+/-0.01), the super-Alfvenic simulation (model B) P(k) proportional to k(-2.71 +/- 0.01). The column density power spectrum of the Perseus, Taurus, and Rosetta molecular cloud complexes is found to be well approximated by a power law P-0(k) proportional to k(-a), with a = 2.74 +/- 0.07, 2.74 +/- 0.08, and 2.76 +/- 0.08, respectively. We conclude that the observations are consistent with the presence of super-Alfvenic turbulence in molecular clouds ( model B), while model A is inconsistent ( more than 99% confidence) with the observations.
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