12CO J=3--2 Observations of Tycho's supernova remnant: constraints on the environmental gas properties
Abstract
Recent observations suggest that Tycho's supernova remnant (SNR; SN 1572) is expanding into a cavity wall of molecular clouds (MCs), which decelerate the SNR and influence its multi-wavelength morphology. To constrain the physical properties of environmental MCs and search for heated gas, we perform a JCMT 12CO J=3--2 observation and compare with previous 12CO J=2--1, 12CO J=1--0 and 13CO J=1--0 data. We present the 12CO J=3--2 map toward Tycho and show that the 12CO J=3--2 spatial distribution and line profiles are similar to those of the lower-J CO lines. By comparing the multiple transitions of CO and the RADEX (Radiative transfer code in non-Local Thermodynamic Equilibrium) models, we constrain the physical properties of molecular gas surrounding Tycho: the northern cloud has a molecular column density of N( H2)=0.5 -- 4.5× 1022 cm-2, while other regions have N( H2)=0.2 -- 3.9×1021 cm-2; the kinetic temperatures T k of these clouds are in the range of 9 -- 22 K and the volume densities n( H2) are 20 -- 700 cm-3. We also discuss the difficulty in finding hot molecular gas shocked by such a young SNR. We estimate that the shocked molecular layer can be as thin as 0.003 pc, corresponding to 0.2'' at the distance of 2.5 kpc, which is 2 orders of magnitude smaller than the angular resolution of current CO observations. Therefore, our molecular observations are largely insensitive to the thin shocked gas layer; instead, they detect the environmental gas.
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