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  N-bearing complex organics toward high-mass protostars - Constant ratios pointing to formation in similar pre-stellar conditions across a large mass range

Nazari, P., Meijerhof, J. D., van Gelder, M. L., Ahmadi, A., Dishoeck, E. F. v., Tabone, B., et al. (2022). N-bearing complex organics toward high-mass protostars - Constant ratios pointing to formation in similar pre-stellar conditions across a large mass range. Astronomy and Astrophysics, 668: A109. doi:10.1051/0004-6361/202243788.

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Nazari, P., Author
Meijerhof, J. D., Author
van Gelder, M. L., Author
Ahmadi, A., Author
Dishoeck, E. F. van1, Author           
Tabone, B., Author
Langeroodi, D., Author
Ligterink, N. F. W., Author
Jaspers, J., Author
Beltrán, M. T., Author
Fuller, G. A., Author
Sánchez-Monge, Á., Author
Schilke, P., Author
Affiliations:
1Infrared and Submillimeter Astronomy, MPI for Extraterrestrial Physics, Max Planck Society, ou_159889              

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 Abstract: We develop a simple iterative scheme to include vertical turbulent mixing and diffusion in PRODIMO thermo-chemical models for protoplanetary discs. The models are carefully checked for convergence towards the time-independent solution of the reaction-diffusion equations, as, for example, used in exoplanet atmosphere models. A series of five TTauri disc models is presented where we vary the mixing parameter αmix from zero to 10−2 and take into account: (a) the radiative transfer feedback of the opacities of icy grains that are mixed upwards; and (b) the feedback of the changing molecular abundances on the gas temperature structure caused by exothermic reactions, and increased line heating and cooling. We see considerable changes in the molecular and ice concentrations in the disc. The most abundant species (H2, CH4, CO, the neutral atoms in higher layers, and the ices in the midplane) are transported both up and down, and at the locations where these abundant chemicals finally decompose, for example by photo processes, the release of reaction products has important consequences for all the other molecules. This generally creates a more active chemistry, with a richer mixture of ionised, atomic, molecular, and ice species, and new chemical pathways that are not relevant in the unmixed case. We discuss the impact on three spectral observations caused by mixing and find that: (i) icy grains can reach the observable disc surface where they cause ice absorption and emission features at IR to far-IR wavelengths; (ii) mixing increases the concentrations of certain neutral molecules observable by mid-IR spectroscopy, in particular OH, HCN, and C2H2; and (iii) mixing can change the optical appearance of CO in ALMA line images and channel maps, where strong mixing would cause the CO molecules to populate the distant midplane.

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Language(s): eng - English
 Dates: 2022-12-15
 Publication Status: Published online
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 Identifiers: DOI: 10.1051/0004-6361/202243788
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Title: Astronomy and Astrophysics
  Other : Astron. Astrophys.
Source Genre: Journal
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Publ. Info: France : EDP Sciences S A
Pages: - Volume / Issue: 668 Sequence Number: A109 Start / End Page: - Identifier: ISSN: 1432-0746
CoNE: https://pure.mpg.de/cone/journals/resource/954922828219_1