Thermal Starless Ammonia Core Surrounded by CCS in the Orion A Cloud

Abstract

We imaged two starless molecular cloud cores, TUKH083 and TUKH122, in the Orion A giant molecular cloud in the CCS and ammonia (NH3) emission with the Very Large Array. TUKH122 contains one NH3 core "TUKH122-n," which is elongated and has a smooth oval boundary. Where observed, the CCS emission surrounds the NH3 core. This configuration resembles that of the N2H+ and CCS distribution in the Taurus starless core L1544, a well-studied example of a dense prestellar core exhibiting infall motions. The linewidth of TUKH122-n is narrow (0.20 km s-1) in the NH3 emission line and therefore dominated by thermal motions. The smooth oval shape of the core boundary and narrow linewidth in NH3 seem to imply that TUKH122-n is dynamically relaxed and quiescent. TUKH122-n is similar to L1544 in the kinetic temperature (10 K), linear size (0.03 pc), and virial mass ( 2 M). Our results strongly suggest that TUKH122-n is on the verge of star formation. TUKH122-n is embedded in the 0.2 pc massive (virial mass 30 M) turbulent parent core, while the L1544 NH3 core is embedded in the 0.2 pc less-massive (virial mass 10 M) thermal parent core. TUKH083 shows complicated distribution in NH3, but was not detected in CCS. The CCS emission toward TUKH083 appears to be extended, and is resolved out in our interferometric observations.