An Ammonia Spectral Map of the L1495-B218 Filaments in the Taurus Molecular Cloud : I. Physical Properties of Filaments and Dense cores

Abstract

We present deep NH3 observations of the L1495-B218 filaments in the Taurus molecular cloud covering over a 3 degree angular range using the K-band focal plane array on the 100m Green Bank Telescope. The L1495-B218 filaments form an interconnected, nearby, large complex extending over 8 pc. We observed NH3 (1,1) and (2,2) with a spectral resolution of 0.038 km/s and a spatial resolution of 31". Most of the ammonia peaks coincide with intensity peaks in dust continuum maps at 350 μm and 500 μm. We deduced physical properties by fitting a model to the observed spectra. We find gas kinetic temperatures of 8 - 15 K, velocity dispersions of 0.05 - 0.25 km/s, and NH3 column densities of 5×1012 - 1×1014 cm-2. The CSAR algorithm, which is a hybrid of seeded-watershed and binary dendrogram algorithms, identifies a total of 55 NH3 structures including 39 leaves and 16 branches. The masses of the NH3 sources range from 0.05 M to 9.5 M. The masses of NH3 leaves are mostly smaller than their corresponding virial mass estimated from their internal and gravitational energies, which suggests these leaves are gravitationally unbound structures. 9 out of 39 NH3 leaves are gravitationally bound and 7 out of 9 gravitationally bound NH3 leaves are associated with star formation. We also found that 12 out of 30 gravitationally unbound leaves are pressure-confined. Our data suggest that a dense core may form as a pressure-confined structure, evolve to a gravitationally bound core, and undergo collapse to form a protostar.