The Zeeman Effect in the 44 GHz Class I Methanol Maser Line toward DR21(OH)

Abstract

We report the detection of the Zeeman effect in the 44 GHz Class I methanol maser line toward the star forming region DR21(OH). In a 219 Jy/beam maser centered at an LSR velocity of 0.83 km s-1, we find a 20-σ detection of zBlos = 53.5 2.7 Hz. If 44 GHz methanol masers are excited at n 107-8 cm-3, then the B~vs.~n1/2 relation would imply from comparison with Zeeman effect detections in the CN(1-0) line toward DR21(OH) that magnetic fields traced by 44 GHz methanol masers in DR21(OH) should be 10 mG. Together with our detected zBlos = 53.5 Hz, this would imply that the value of the 44 GHz methanol Zeeman splitting factor z is 5 Hz mG-1. Such small values of z would not be a surprise, as the methanol molecule is non paramagnetic, like H2O. Empirical attempts to determine z, as demonstrated, are important because currently there are no laboratory measurements or theoretically calculated values of z for the 44 GHz methanol transition. Data from observations of a larger number of sources are needed to make such empirical determinations robust.