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OBSERVATIONS OF INTERSTELLAR HYDROGEN FLUORIDE AND HYDROGEN CHLORIDE IN THE GALAXY Raquel R. Monje Darek C. Lis, Thomas Phillips, Paul F. Goldsmith Martin Emprechtinger, David Neufeld and Maryvonne Gerin
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Fluorine, with IP > IP(H), D 0 (HX) > D 0 (H 2 ). Fluorine is predominantly neutral in the diffuse ISM, and can react exothermically with H 2 and HF. Chlorine, with IP D 0 (H 2 ). Chlorine is predominantly ionized in atomic clouds. Cl + can react exothermically with H 2 to form HCl + The Unique Thermochemistry of Fluorine and Chlorine
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Once ionized Cl + reacts with molecular hydrogen exothermically to form HCl +, a process that initiates the chemical reactions of chlorine. In cloud interiors, atomic chlorine is mostly neutral, not ionized, so that the reaction of Cl and H 3 + drives the formation of H 2 Cl +, which then reacts with CO and H 2 O leading to the formation of HCl. An alternative direct route to HCl in either hot gas or regions where vibrationally excited H 2 is abundant is the Cl+H 2 ->HCl+H reaction. The destruction of HCl is dominated both by photoionization and photodissociation and by reactions with C + and H 3 +. The HCl Chemistry
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SourceD (kpc) W49N11.5 W31C4.8 SgrA(+50 km/s cloud)8.6 W28A3.8 G34.3+0.13.8 W517 W33A4 DR21(OH)1.0
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= 10”, T ex =40K, N tot = 3.0 x 10 14 cm -2, V=4 km/s, V LSR =-4km/s [H 35 Cl/H 37 Cl] ratio of 2.7 (3.1 the solar isotopic abundance) Results from an initial LTE model: HCl toward DR21(OH) Intensity ration of 2.7:3:2 (Optically thin 1:2:3) (Optically thick 1:1:1)
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HCl toward W31C self absorption feature at VLSR =-1 km/s Absorption by foreground in the V LSR range 15-50 km/s Neufeld et al, 2010, 518,L108
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HCl toward W31C: The Foreground HFS fit + subtraction of absorption Decomposition of the Hyperfine components Courtesy of B. Godard’s Code V LSR N(HCl)HCl/H 2 a 20 - 251.5 x 10 13 5.42 x 10 -9 25 – 352.6 x 10 13 3.52 x 10 -9 35 - 453.1 x 10 13 5.64 x 10 -9 a H 2 column densities derived from CH observations, Gerin et al. 2010, assuming N(CH) = 3.5x10 -8 N(H 2 ).
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HCl toward W49N Self absorption from the envelope Outflows? Emission from other lines?
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HCl toward SgrA+50 km/s cloud Hyperfine decomposition N tot = 7.17 x 10 14 cm -2 [H 35 Cl/H 37 Cl] ratio of 2.66
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HCl toward W33A
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Fluorine is the only atom that can react exothermically with H 2 to form a diatomic hydride: HF is destroyed very slowly by means of cosmic ray-induced photodissociation and as a result of reactions with species of low abundances such as He +,H 3 +, and C +. HF is expected to be the dominant reservoir of gas-phase fluorine. N(HF)/N(H 2 ) ~ 3.6 x 10 -8 HF may be used as a valuable surrogate tracer for molecular hydrogen within diffuse interstellar medium, both in the Milky Way and other galaxies. F + H 2 → HF + H +1.4eV HF in the ISM
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NGC 6634 I W51 W49 W31C Orion KL Sgr B2(M) Sgr A+50 NGC 6334I Sgr B2(N)
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Sgr A+50 km/s Sgr B2(M) Toward the Galactic center Monje et al. 2011, Apj, 734, L23Sonnentrucker et al. in preparation
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ObjectV LSR km s -1 N(HF) x 10 13 cm -2 HF/H 2 x 10 -8 Sgr B2(M) a -115 – -60 -53 – -49 -35 – -28 -10 – -5 26 – 40 9.9 1.1 1.3 1.01 1.7 1.5 1.4 1.1 W49N b 30 – 50 50 – 78 67 – 71 55 69 5.6 1.5 1.1 1.3 W51 b 0 – 10 10 – 20 20 – 30 42 – 47 14.5 1.8 0.8 8.0 1.4 1.3 >1.2 1.6 G34 b 3 – 13 25 – 35 45 – 50 1.5 1.2 2.2 1.6 1.3 2.5 Estimates of the HF/H 2 ratio a H 2 column densities derived from 13 CO assuming CO abundances of 3x10 -5 N(H 2 ) (Sonnentucker 2005). b H 2 column densities derived from CH observations, Gerin et al. 2010, assuming N(CH) = 3.5x10 -8 N(H 2 ).
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Conclusions Observations of H 35 Cl and H 37 Cl, and accurate measurements of the 35 Cl/ 37 Cl ratio in different environments, will provide some insight into the chemical evolution of both isotopes, thus into Galactic chemical evolution. Firs detection of HCl in diffuse medium toward the line-of-sight of W31C. One key result from Herschel/HIFI is the ubiquitous nature of hydrogen fluoride within the interstellar medium of the Milky Way. The HF abundances of 1-2 x 10 -8 under a wide variety of interstellar conditions are consistent with the chemical models. HF shows good promise as a tracer of H 2.
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HCl is the most abundant Cl-bearing molecule in dense clouds. Both 35CL and 37CL nuclei are believed to form in the last burning stages of massive stars (>10M sun ) and by means of “explosive nucleosynthesis” during supernovae detonation. Observations of H35Cl and H37Cl, and accurate measurements of the 35Cl/37Cl ratio in different environments, can provide some insight into the chemical evolution of both isotopes, thus into Galactic chemical evolution HCl in the ISM
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Neufeld et al. 1997, 488, L141 HF in the ISM - A brief history - First detection of interstellar HF J 2-1. Towards Sgr B2 using LWS on ISO. HF abundances of ~ 3 x 10 -10. ISO
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Extraordinary Source: Orion KL HF/H lower limit ~ 1.6 x 10 -10 Phillips et al. 2010, A&A, 518, 109
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Extragalactic HF van der Werf et al. 2010, A&A, 518, L42 Mrk 231 with SPIRE Mrk 231 with SPIRE HF J = 1-0 detection with the CSO with after ~10hr Monje, Phillips, Peng et al. in preparation Cloverleaf: QSO at z = 2.56 Cloverleaf: QSO at z = 2.56
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