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- Title
ACA observation and chemical modeling of phosphorus nitride towards hot molecular cores G10.47+0.03 and G31.41+0.31.
- Authors
MANNA, ARIJIT; PAL, SABYASACHI
- Abstract
Phosphorus (P) is one of the important elements for the formation of life and plays a crucial role in several biochemical processes. Recent spectral line surveys have confirmed the existence of P-bearing molecules, especially PN and PO, in the star-formation regions, but their formation mechanisms are poorly understood. The P-bearing molecule phosphorus nitride (PN) is detected in several star-forming regions, but this molecule has been poorly studied at high gas densities (≥ 10 6 cm - 3 ) hot molecular cores. In this paper, we presented the detection of rotational emission line of PN with transition J = 3 –2 towards the hot molecular cores G10.47 + 0.03 and G31.41 + 0.31, using the Atacama Compact Array (ACA). The estimated column densities of PN for G10.47 + 0.03 and G31.41 + 0.31 using the local thermodynamic equilibrium model are (3.60 ± 0.2) × 10 13 cm - 2 and (9.10 ± 0.1) × 10 12 cm - 2 with an excitation temperature of 150 ± 25 K. The fractional abundance of PN relative to H 2 is 2.76 × 10 - 10 for G10.47 + 0.03 and 5.68 × 10 - 11 for G31.41 + 0.031. We computed the two-phase warm-up chemical model of PN to understand the chemical evolution in the environment of hot molecular cores. After chemical modeling, we claimed that PN is created in the gas phase via the neutral–neutral reaction between PO and N in the warm-up stage. Similarly, PN is destroyed via the ion–neutral reaction between H 3 O + and PN.
- Subjects
CHEMICAL models; LOCAL thermodynamic equilibrium; NITRIDES; PHOSPHORUS; SPECTRAL lines; ASTROCHEMISTRY
- Publication
Journal of Astrophysics & Astronomy, 2023, Vol 45, Issue 1, p1
- ISSN
0250-6335
- Publication type
Article
- DOI
10.1007/s12036-023-09989-x