Query : 2019A&A...628A..73D

2019A&A...628A..73D - Astronomy and Astrophysics, volume 628A, 73-73 (2019/8-1)

Chemical and radiative transfer modeling of propylene oxide.


Abstract (from CDS):

Context. The recent identification of the first complex chiral molecule, propylene oxide (PrO), in space opens up a new window to further study the origin of homochirality on the Earth. There are some recent studies to explain the formation of PrO however additional studies on the formation of this species are needed for better understanding.
Aims. We seek to prepare a complete reaction network to study the formation of propylene oxide in the astrophysically relevant conditions. Based on our results, a detailed radiative transfer modeling has been carried out to propose some more transitions that would potentially be targeted in the millimeter wave domain.
Methods. A gas-grain chemical network was used to explain the observed abundance of PrO in a cold shell surrounding the high-mass star-forming region of Sgr B2. Quantum chemical calculations were employed to study various reaction parameters and to compute multiple vibrational frequencies of PrO. Results. To model the formation of PrO in the observed region, we considered a dark cloud model. Additionally, we used a model to check the feasibility of forming PrO in the hot core region. Some potential transitions in the millimeter wave domain are predicted that could be useful for the future astronomical detection. We used radiative transfer modeling to extract the physical condition that might be useful to know the properties of the source in detail. Moreover, we provided vibrational transitions of PrO, which could be very useful for the future detection of PrO by the upcoming James Webb Space Telescope.

Abstract Copyright: © ESO 2019

Journal keyword(s): astrochemistry - methods: numerical - ISM: abundances - ISM: molecules - line: identification

Simbad objects: 5

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Number of rows : 5
N Identifier Otype ICRS (J2000)
ICRS (J2000)
Mag U Mag B Mag V Mag R Mag I Sp type #ref
1850 - 2023
1 TMC-1 MoC 04 41 45.9 +25 41 27           ~ 1620 0
2 NAME Orion-KL SFR 05 35 14.16 -05 22 21.5           ~ 2251 1
3 NAME Sgr B2 (North) Rad 17 47 20.2 -28 22 21           ~ 646 1
4 NAME Sgr B2 MoC 17 47 20.4 -28 23 07           ~ 2198 1
5 NAME Large Molecule Heimat MoC 17 47 20.4943 -28 22 11.656           ~ 123 0

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