A systematic TMRT observational study of Galactic $^{12}$C/$^{13}$C ratios from Formaldehyde
Y. T. Yan, J. S. Zhang, C. Henkel, T. Mufakharov, L. W. Jia, X. D., Tang, Y. J. Wu, J. Li, Z. A. Zeng, Y. X. Wang, Y. Q. Li, J. Huang, and J. M., Jian

TL;DR
This study measures the $^{12}$C/$^{13}$C ratios in Galactic molecular clouds using formaldehyde lines, revealing a linear relationship with Galactocentric distance and suggesting grain-surface formation of H$_2$CO.
Contribution
First systematic TMRT observational survey of H$_2$CO and H$_2^{13}$CO lines to determine isotope ratios across the Galaxy, incorporating non-LTE modeling for accurate abundance estimates.
Findings
$^{12}$C/$^{13}$C ratios increase linearly with Galactocentric distance.
Ratios derived from H$_2$CO agree with other molecules, indicating consistent isotope distributions.
H$_2$CO likely forms on dust grain mantles rather than in the gas phase.
Abstract
We present observations of the C-band (4.8 GHz) and Ku-band (14.5 GHz) K-doublet lines of HCO and the C-band (4.6 GHz) line of HCO toward a large sample of Galactic molecular clouds, through the Shanghai Tianma 65-m radio telescope (TMRT). Our sample with 112 sources includes strong HCO sources from the TMRT molecular line survey at C-band and other known HCO sources. All three lines are detected toward 38 objects (43 radial velocity components) yielding a detection rate of 34\%. Complementary observations of their continuum emission at both C- and Ku-bands were performed. Combining spectral line parameters and continuum data, we calculate the column densities, the optical depths and the isotope ratio HCO/HCO for each source. To evaluate photon trapping caused by sometimes significant opacities…
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