Dispersion of Magnetic Fields in Molecular Clouds. IV - Analysis of Interferometry Data

Abstract

We expand on the dispersion analysis of polarimetry maps toward applications to interferometry data. We show how the filtering of low-spatial frequencies can be accounted for within the idealized Gaussian turbulence model, initially introduced for single-dish data analysis, to recover reliable estimates for correlation lengths of magnetized turbulence, as well as magnetic field strengths (plane-of-the-sky component) using the Davis-Chandrasekhar-Fermi method. We apply our updated technique to TADPOL/CARMA data obtained on W3(OH), W3 Main, and DR21(OH). For W3(OH) our analysis yields a turbulence correlation length δ19 mpc, a ratio of turbulent-to-total magnetic energy Bt2 / B2 0.58, and a magnetic field strength B01.1\:mG; for W3 Main δ22 mpc, Bt2 / B2 0.74, and B00.7\:mG; while for DR21(OH) δ12 mpc, Bt2 / B2 0.70, and B01.2\:mG.