The chemistry of interstellar molecules containing the halogen elements

October 10, 2009

David A. JHU Neufeld, Mark G. UMd Wolfire

Astrophysics

Astrophysics of Galaxies

Although they are only minor constituents of the interstellar medium, halogen-containing molecules are of special interest because of their unique thermochemistry. Here, we present a theoretical study of the chemistry of interstellar molecules containing the halogen elements chlorine and fluorine. We have modeled both diffuse and dense molecular clouds, making use of updated estimates for the rates of several key chemical processes. We present predictions for the abundances of the three halogen molecules that have been detected to date in the interstellar medium: HF, CF+ and HCl. As in our previous study of fluorine-bearing interstellar molecules, we predict HF to be the dominant gas-phase reservoir of fluorine within both diffuse and dense molecular clouds; we expect the Herschel Space Observatory to detect widespread absorption in the HF J=1-0 transition. Our updated model now overpredicts the CF+ abundance by a factor ~10 relative to observations of the Orion Bar; this discrepancy has widened because we now adopt a laboratory measurement of the CF+ dissociative recombination rate that is smaller than the estimate we adopted previously. This disagreement suggests that the reaction of C+ with HF proceeds more slowly than the capture rate assumed in our model; a laboratory measurement of this reaction rate would be very desirable. Our model predicts diffuse cloud HCl abundances that are similar to those predicted previously and detected tentatively toward zeta Oph. Two additional species are potentially detectable from photodissociation regions: the H2Cl+ and HCl+ molecular ions. Ortho-H2Cl+ has its lowest-lying transition in the millimeter spectral region observable from the ground, and the lowest rotational transition of HCl+ is observable with Herschel's HIFI instrument.

The chemistry of fluorine-bearing molecules in diffuse and dense interstellar gas clouds

April 13, 2005

93% Match

David A. JHU Neufeld, Mark G. UMd Wolfire, Peter MPIfR Schilke

Astrophysics

We present a theoretical investigation of the chemistry of fluorine-bearing molecules in diffuse and dense interstellar gas clouds. The chemistry of interstellar fluorine is qualitatively different from that of any other element, because - unlike the neutral atoms of any other element found in diffuse or dense molecular clouds - atomic fluorine undergoes an exothermic reaction with molecular hydrogen. Over a wide range of conditions attained within interstellar gas clouds, th...

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Discovery of Interstellar CF+

March 8, 2006

91% Match

D. A. JHU Neufeld, P. MPIfR Schilke, K. M. MPIfR Menten, M. G. U Md Wolfire, J. H. Onsala Black, F. MPIfR Schuller, H. Koln Muller, S. MPIfR Thorwirth, ... , Philipp S. MPIfR

Astrophysics

We discuss the first astronomical detection of the CF+ (fluoromethylidynium) ion, obtained by observations of the J=1-0 (102.6 GHz), J=2-1 (205.2 GHz) and J=3-2 (307.7 GHz) rotational transitions toward the Orion Bar region. Our search for CF+, carried out using the IRAM 30m and APEX 12m telescopes, was motivated by recent theoretical models that predict CF+ abundances of a few times 1.E-10 in UV-irradiated molecular regions where C+ is present. The CF+ ion is produced by exo...

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The chemistry of ions in the Orion Bar I. - CH+, SH+, and CF+: The effect of high electron density and vibrationally excited H2 in a warm PDR surface

December 18, 2012

90% Match

Z. Nagy, der Tak F. F. S. Van, V. Ossenkopf, M. Gerin, F. Le Petit, J. Le Bourlot, J. H. Black, J. R. Goicoechea, C. Joblin, ... , Bergin E. A.

Astrophysics of Galaxies

The abundances of interstellar CH+ and SH+ are not well understood as their most likely formation channels are highly endothermic. Using data from Herschel, we study the formation of CH+ and SH+ in a typical high UV-illumination photon-dominated region (PDR), the Orion Bar. Herschel/HIFI provides velocity-resolved data of CH+ 1-0 and 2-1 and three hyperfine transitions of SH+. Herschel/PACS provides information on the excitation and spatial distribution of CH+ (up to J=6-5). ...

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The chemistry of vibrationally excited H2 in the interstellar medium

March 6, 2010

89% Match

M. Agundez, J. R. Goicoechea, J. Cernicharo, ... , Roueff E.

Astrophysics of Galaxies

The internal energy available in vibrationally excited H2 molecules can be used to overcome or diminish the activation barrier of various chemical reactions of interest for molecular astrophysics. In this article we investigate in detail the impact on the chemical composition of interstellar clouds of the reactions of vibrationally excited H2 with C+, He+, O, OH, and CN, based on the available chemical kinetics data. It is found that the reaction of H2 (v>0) and C+ has a prof...

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Herschel observations of interstellar chloronium

January 13, 2012

89% Match

David A. JHU Neufeld, Evelyne Paris-Meudon Roueff, Ronald L. UMass Snell, Dariusz Caltech Lis, Arnold O. ETH Zurich Benz, Simon MPIfETP Bruderer, John H. Chalmers Black, Luca Massimo LERMA De, Maryvonne LERMA Gerin, Paul F. JPL Goldsmith, Harshal JPL Gupta, Nick JHU Indriolo, Jacques Le Paris-Meudon Bourlot, Franck Le Paris-Meudon Petit, Bengt Chalmers Larsson, Gary J. CfA Melnick, Karl M. MPIfR Menten, Raquel Caltech Monje, Zsofia Groningen Nagy, Thomas G. Caltech Phillips, Aage Stockholm Sandqvist, Paule STScI Sonnentrucker, ... , Wolfire Mark G. UMd

Astrophysics of Galaxies

Using the Herschel Space Observatory's Heterodyne Instrument for the Far-Infrared (HIFI), we have observed para-chloronium (H2Cl+) toward six sources in the Galaxy. We detected interstellar chloronium absorption in foreground molecular clouds along the sight-lines to the bright submillimeter continuum sources Sgr A (+50 km/s cloud) and W31C. Both the para-H2-35Cl+ and para-H2-37Cl+ isotopologues were detected, through observations of their 1(11)-0(00) transitions at rest freq...

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The chemistry of chlorine-bearing species in the diffuse interstellar medium, and new SOFIA/GREAT observations of HCl$^+$

June 1, 2021

89% Match

David A. JHU Neufeld, Helmut MPIfR Wiesemeyer, Mark J. UMd Wolfire, Arshia MPIfR Jacob, Christof Köln Buchbender, Maryvonne Obs. Paris Gerin, Harshal NSF Gupta, ... , Schilke Peter Köln

Astrophysics of Galaxies

We have revisited the chemistry of chlorine-bearing species in the diffuse interstellar medium with new observations of the HCl$^+$ molecular ion and new astrochemical models. Using the GREAT instrument on board SOFIA, we observed the $^2\Pi_{3/2}\, J = 5/2 - 3/2$ transition of HCl$^+$ near 1444 GHz toward the bright THz continuum source W49N. We detected absorption by diffuse foreground gas unassociated with the background source, and were able to thereby measure the distrib...

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Molecular ion abundances in the diffuse ISM : CF+, HCO+, HOC+, and C3H+

November 6, 2018

89% Match

M. Gerin, H. Liszt, D. Neufeld, B. Godard, P. Sonnentrucker, ... , Roueff E.

Astrophysics of Galaxies

The transition between atomic and molecular hydrogen is associated with important changes in the structure of interstellar clouds, and marks the beginning of interstellar chemistry. Because of the relatively simple networks controlling their abundances, molecular ions are usually good probes of the underlying physical conditions including for instance the fraction of gas in molecular form or the fractional ionization. In this paper we focus on three possible probes of the mol...

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Depletion of chlorine into HCl ice in a protostellar core

November 24, 2014

89% Match

M. Kama, E. Caux, A. Lopez-Sepulcre, V. Wakelam, C. Dominik, C. Ceccarelli, M. Lanza, F. Lique, B. B. Ochsendorf, D. C. Lis, ... , Tielens A. G. G. M.

Solar and Stellar Astrophysi...

The freezeout of gas-phase species onto cold dust grains can drastically alter the chemistry and the heating-cooling balance of protostellar material. In contrast to well-known species such as carbon monoxide (CO), the freezeout of various carriers of elements with abundances $<10^{-5}$ has not yet been well studied. Our aim here is to study the depletion of chlorine in the protostellar core, OMC-2 FIR 4. We observed transitions of HCl and H2Cl+ towards OMC-2 FIR 4 using the ...

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CF$^+$ excitation in the interstellar medium

December 3, 2020

88% Match

Benjamin Desrousseaux, François Lique, Javier R. Goicoechea, ... , Dawes Richard

Astrophysics of Galaxies

The detection of CF$^+$ in interstellar clouds potentially allows astronomers to infer the elemental fluorine abundance and the ionization fraction in ultraviolet-illuminated molecular gas. Because local thermodynamic equilibrium (LTE) conditions are hardly fulfilled in the interstellar medium (ISM), the accurate determination of the CF$^+$ abundance requires one to model its non-LTE excitation via both radiative and collisional processes. Here, we report quantum calculations...

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First astronomical detection of the CF+ ion

September 21, 2005

88% Match

D. A. JHU Neufeld, P. MPIfR Schilke, K. M. MPIfR Menten, M. G. U Md Wolfire, J. H. Onsala Black, F. MPIfR Schuller, H. Koln Muller, S. MPIfR Thorwirth, ... , Philipp S. MPIfR

Astrophysics

We report the first astronomical detection of the CF+ (fluoromethylidynium) ion obtained by recent observations of its J = 1 - 0 (102.6 GHz), J = 2 - 1 (205.2 GHz), and J = 3 - 2 (307.7 GHz) pure rotational emissions toward the Orion Bar. Our search for CF+, carried out using the IRAM 30m and APEX 12m telescopes, was motivated by recent theoretical models that predict CF+ abundances of a few x E-10 in UV-irradiated molecular regions where C+ is present. The measurements confi...

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