The L723 low mass star forming protostellar system: resolving a double core
J. M. Girart, R. Rao, R. Estalella
TL;DR
This study uses SMA observations to resolve a double core in the low-mass star-forming region L723, revealing early fragmentation and different evolutionary stages of the cores, with implications for star formation processes.
Contribution
First detailed interferometric analysis of the L723 core revealing fragmentation and physical properties of two protostellar cores.
Findings
Detected two cores separated by 880 AU with similar properties
SMA 2 shows signs of being more evolved than SMA 1
Evidence of core fragmentation at multiple scales
Abstract
We present 1.35 mm SMA observations around the low-mass Class 0 source IRAS 19156+1906, at the the center of the L723 dark cloud. We detected emission from dust as well as emission from H2CO, DCN and CN, which arise from two cores, SMA 1 and SMA 2, separated by 2.9" (880 AU). SMA 2 is associated with VLA 2. SiO 5-4 emission is detected, possibly tracing a region of interaction between the dense envelope and the outflow. We modeled the dust and the H2CO emission from the two cores: they have similar physical properties but SMA 2 has a larger p-H2CO abundance than SMA 1. The p-H2CO abundances found are compatible with the value of the outer part of the circumstellar envelopes associated with Class 0 sources. SMA 2 is likely more evolved than SMA 1. The kinematics of the two sources show marginal evidence of infall and rotation motions. The mass detected by the SMA observation, which trace…
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