Dependence of Chemical Abundance on the Cosmic Ray Ionization Rate in IC 348

Abstract

Ions (e.g., H3+, H2O+) have been used extensively to quantify the cosmic-ray ionization rate (CRIR) in diffuse sightlines. However, measurements of CRIR in low-to-intermediate density gas environments are rare, especially when background stars are absent. In this work, we combine molecular line observations of CO, OH, CH, and HCO+ in the star-forming cloud IC~348, and chemical models to constrain the value of CRIR and study the response of the chemical abundances distribution. The cloud boundary is found to have an A V of approximately 4 mag. From the interior to the exterior of the cloud, the observed 13CO line intensities drop by an order of magnitude. The calculated average abundance of 12CO (assuming 12C/13C = 65) is (1.20.9) ×10-4, which increases by a factor of 6 from the interior to the outside regions. The average abundance of CH (3.30.7 × 10-8) is in good agreement with previous findings in diffuse and translucent clouds (A V < 5 mag). However, we did not find a decline in CH abundance in regions of high extinction (A V8 mag) as previously reported in Taurus. By comparing the observed molecular abundances and chemical models, we find a decreasing trend of CRIR as A V increases. The inferred CRIR of ζcr = (4.71.5) × 10-16 s-1 at low A V is consistent with H+3 measurements toward two nearby massive stars.

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