Detection of CH+, SH+, and their 13C- and 34S- isotopologues toward   PKS1830-211

S. Muller (1); H. S. P. M"uller (2); J. H. Black (1); M. G'erin (3),; F. Combes (4); S. Curran (5); E. Falgarone (3); M. Gu'elin (6,3); C. Henkel; (7,8); S. Mart'in (9,10); K. M. Menten (7); E. Roueff (3); S. Aalto (1); A.; Beelen (11); T. Wiklind (12); M. A.Zwaan (13) ((1) Department of Space; Earth; and Environment; Chalmers University of Technology; Onsala Space Observatory,; SE-43992 Onsala; Sweden; (2) I. Physikalisches Institut; Universit"at zu; K"oln; Z"ulpicher Str. 77; 50937 K"oln; Germany; (3) LERMA/LRA; Ecole Normale; Sup\'erieure; Observatoire de Paris; CNRS UMR 8112; PSL Research University,; Sorbonne Universit'es; UPMC Universit'e Paris; 24 rue Lhomond; 75005; Paris,; France; (4) Observatoire de Paris; LERMA; College de France; CNRS; PSL Univ.,; UPMC; Sorbonne Univ.; F-75014; Paris; France; (5) School of Chemical and; Physical Sciences; Victoria University of Wellington; PO Box 600; Wellington; 6140; New Zealand; (6) Institut de Radioastronomie Millim'etrique; 300; rue; de la piscine; 38406 St Martin d'H`eres; France; (7) Max-Planck-Institut f"ur; Radioastonomie; Auf dem H"ugel 69; D-53121 Bonn; Germany; (8) Astron. Dept.,; King Abdulaziz University; P.O. Box 80203; Jeddah; Saudi Arabia; (9) European; Southern Observatory; Alonso de C'ordova 3107; Vitacura; Santiago; Chile,; (10) Joint ALMA Observatory; Alonso de C'ordova 3107; Vitacura; Santiago,; Chile; (11) Institut d'Astrophysique Spatiale; Bat. 121; Universit'e; Paris-Sud; 91405 Orsay Cedex; France; (12) Department of Physics; Catholic; University of America; 620 Michigan Ave NE; Washington DC 20064; (13); European Southern Observatory; Karl-Schwarzschild-Str. 2; 85748 Garching b.; M"unchen; Germany)

arXiv:1707.07446·astro-ph.GA·October 25, 2017

Detection of CH+, SH+, and their 13C- and 34S- isotopologues toward PKS1830-211

S. Muller (1), H. S. P. M"uller (2), J. H. Black (1), M. G'erin (3),, F. Combes (4), S. Curran (5), E. Falgarone (3), M. Gu'elin (6,3), C. Henkel, (7,8), S. Mart'in (9,10), K. M. Menten (7), E. Roueff (3), S. Aalto (1), A., Beelen (11), T. Wiklind (12)

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TL;DR

This study uses ALMA observations to detect and analyze CH+, SH+, and their isotopologues in a distant galaxy, revealing insights into interstellar chemistry and physical conditions at a look-back time of half the universe's age.

Contribution

First detections of extragalactic SH+ and interstellar 34SH+; improved spectroscopic data; and comparative analysis of isotopologue ratios in a galaxy at z=0.89.

Findings

01

CH+ detected with the deepest absorption among observed species.

02

Significant variation in [CH+]/[13CH+] ratios between sightlines.

03

First extragalactic detection of SH+ and 34SH+.

Abstract

The z=0.89 molecular absorber toward PKS1830-211 provides us with the opportunity to probe the chemical and physical properties of the interstellar medium in the disk of a galaxy at a look-back time of half the present age of the Universe. Recent ALMA observations of hydrides have unveiled the multi-phase composition of this source's interstellar medium along two absorbing sightlines. Here, we report ALMA observations of CH+ and SH+, and of their 13C- and 34S- isotopologues, as potential tracers of energetic processes in the interstellar medium. CH+ and 13CH+ are detected toward both images of PKS1830-211, CH+ showing the deepest and broadest absorption among all species observed so far. The [CH+]/[13CH+] abundance ratio is ~100 in the south-west line of sight. [...] Toward the north-east image, we find an even larger value of [CH+]/[13CH+], 146 +/- 43, although with a large…

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