CH+(1-0) and 13CH+(1-0) absorption lines in the direction of massive star-forming regions

E. Falgarone; B. Godard; J. Cernicharo; M. de Luca; M. Gerin; T. G. Phillips; J. H. Black; D. C. Lis; T. A. Bell; F. Boulanger; A. Coutens; E. Dartois; P. Encrenaz; T. Giesen; J. R. Goicoechea; P. F. Goldsmith; H. Gupta; C. Gry; P. Hennebelle; E. Herbst; P. Hily-Blant; C. Joblin; M. Kaźmierczak; R. Kołos; J. Krełowski; J. Martin-Pintado; R. Monje; B. Mookerjea; D. A. Neufeld; M. Perault; J. C. Pearson; C. Persson; R. Plume; M. Salez; M. Schmidt; P. Sonnentrucker; J. Stutzki; D. Teyssier; C. Vastel; S. Yu; K. Menten; T. R. Geballe; S. Schlemmer; R. Shipman; A. G. G. M. Tielens; S. Philipp; A. Cros; J. Zmuidzinas; L. A. Samoska; K. Klein; A. Lorenzani; R. Szczerba; I. Péron; P. Cais; P. Gaufre; L. Ravera; P. Morris; S. Lord; P. Planesas

doi:10.1051/0004-6361/201015109

CH+(1-0) and 13CH+(1-0) absorption lines in the direction of massive star-forming regions

E. Falgarone
, B. Godard
, J. Cernicharo
, M. de Luca
, M. Gerin
, T. G. Phillips
, J. H. Black
, D. C. Lis
, T. A. Bell
, F. Boulanger
, A. Coutens
, E. Dartois
, P. Encrenaz
, T. Giesen
, J. R. Goicoechea
, P. F. Goldsmith
, H. Gupta
, C. Gry
, P. Hennebelle
, E. Herbst

P. Hily-Blant, C. Joblin, M. Kaźmierczak, R. Kołos, J. Krełowski, J. Martin-Pintado, R. Monje, B. Mookerjea, D. A. Neufeld, M. Perault, J. C. Pearson, C. Persson, R. Plume, M. Salez, M. Schmidt, P. Sonnentrucker, J. Stutzki, D. Teyssier, C. Vastel, S. Yu, K. Menten, T. R. Geballe, S. Schlemmer, R. Shipman, A. G. G. M. Tielens, S. Philipp, A. Cros, J. Zmuidzinas, L. A. Samoska, K. Klein, A. Lorenzani, R. Szczerba, I. Péron, P. Cais, P. Gaufre, L. Ravera, P. Morris, S. Lord, P. Planesas

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Abstract

We report the detection of the ground-state rotational transition of the methylidyne cation CH+ and its isotopologue 13CH+ toward the remote massive star-forming regions W33A, W49N, and W51 with the HIFI instrument onboard the Herschel satellite. Both lines are seen only in absorption against the dust continuum emission of the star-forming regions. The CH+ absorption is saturated over almost the entire velocity ranges sampled by the lines-of-sight that include gas associated with the star-forming regions (SFR) and Galactic foreground material. The CH+ column densities are inferred from the optically thin components. A lower limit of the isotopic ratio [ 12CH+] /[ 13CH+] > 35.5 is derived from the absorptions of foreground material toward W49N. The column density ratio, N(CH+)/N(HCO+), is found to vary by at least a factor 10, between 4 and >40, in the Galactic foreground material. Line-of-sight 12CH+ average abundances relative to total hydrogen are estimated. Their average value, N(CH+)/NH > 2.6×10-8, is higher than that observed in the solar neighborhood and confirms the high abundances of CH+ in the Galactic interstellar medium. We compare this result to the predictions of turbulent dissipation regions (TDR) models and find that these high abundances can be reproduced for the inner Galaxy conditions. It is remarkable that the range of predicted N(CH+)/N(HCO+) ratios, from 1 to ~50, is comparable to that observed. Herschel is an ESA space observatory with science instruments provided by European-led Principal Investigator consortia and with important participation from NASA.Appendix (page 6) is only available in electronic form at http://www.aanda.org

Original language	English
Article number	L15
Number of pages	6
Journal	Astronomy & Astrophysics
Volume	521
DOIs	https://doi.org/10.1051/0004-6361/201015109
Publication status	Published - Oct-2010

Keywords

astrochemistry
ISM: molecules
ISM: kinematics and dynamics
turbulence

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10.1051/0004-6361/201015109

http://adsabs.harvard.edu/abs/2010A%26A...521L..15F

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Falgarone, E., Godard, B., Cernicharo, J., de Luca, M., Gerin, M., Phillips, T. G., Black, J. H., Lis, D. C., Bell, T. A., Boulanger, F., Coutens, A., Dartois, E., Encrenaz, P., Giesen, T., Goicoechea, J. R., Goldsmith, P. F., Gupta, H., Gry, C., Hennebelle, P., ... Planesas, P. (2010). CH+(1-0) and 13CH+(1-0) absorption lines in the direction of massive star-forming regions. Astronomy & Astrophysics, 521, Article L15. https://doi.org/10.1051/0004-6361/201015109

@article{a749291427b24580a5431f32585d0ebc,

title = "CH+(1-0) and 13CH+(1-0) absorption lines in the direction of massive star-forming regions",

abstract = "We report the detection of the ground-state rotational transition of the methylidyne cation CH+ and its isotopologue 13CH+ toward the remote massive star-forming regions W33A, W49N, and W51 with the HIFI instrument onboard the Herschel satellite. Both lines are seen only in absorption against the dust continuum emission of the star-forming regions. The CH+ absorption is saturated over almost the entire velocity ranges sampled by the lines-of-sight that include gas associated with the star-forming regions (SFR) and Galactic foreground material. The CH+ column densities are inferred from the optically thin components. A lower limit of the isotopic ratio [ 12CH+] /[ 13CH+] > 35.5 is derived from the absorptions of foreground material toward W49N. The column density ratio, N(CH+)/N(HCO+), is found to vary by at least a factor 10, between 4 and >40, in the Galactic foreground material. Line-of-sight 12CH+ average abundances relative to total hydrogen are estimated. Their average value, N(CH+)/NH > 2.6×10-8, is higher than that observed in the solar neighborhood and confirms the high abundances of CH+ in the Galactic interstellar medium. We compare this result to the predictions of turbulent dissipation regions (TDR) models and find that these high abundances can be reproduced for the inner Galaxy conditions. It is remarkable that the range of predicted N(CH+)/N(HCO+) ratios, from 1 to \textasciitilde{}50, is comparable to that observed. Herschel is an ESA space observatory with science instruments provided by European-led Principal Investigator consortia and with important participation from NASA.Appendix (page 6) is only available in electronic form at http://www.aanda.org",

keywords = "astrochemistry, ISM: molecules, ISM: kinematics and dynamics, turbulence",

author = "E. Falgarone and B. Godard and J. Cernicharo and \{de Luca\}, M. and M. Gerin and Phillips, \{T. G.\} and Black, \{J. H.\} and Lis, \{D. C.\} and Bell, \{T. A.\} and F. Boulanger and A. Coutens and E. Dartois and P. Encrenaz and T. Giesen and Goicoechea, \{J. R.\} and Goldsmith, \{P. F.\} and H. Gupta and C. Gry and P. Hennebelle and E. Herbst and P. Hily-Blant and C. Joblin and M. Ka{\'z}mierczak and R. Ko{\l}os and J. Kre{\l}owski and J. Martin-Pintado and R. Monje and B. Mookerjea and Neufeld, \{D. A.\} and M. Perault and Pearson, \{J. C.\} and C. Persson and R. Plume and M. Salez and M. Schmidt and P. Sonnentrucker and J. Stutzki and D. Teyssier and C. Vastel and S. Yu and K. Menten and Geballe, \{T. R.\} and S. Schlemmer and R. Shipman and Tielens, \{A. G. G. M.\} and S. Philipp and A. Cros and J. Zmuidzinas and Samoska, \{L. A.\} and K. Klein and A. Lorenzani and R. Szczerba and I. P{\'e}ron and P. Cais and P. Gaufre and L. Ravera and P. Morris and S. Lord and P. Planesas",

note = "M1 - Journal Article",

year = "2010",

month = oct,

doi = "10.1051/0004-6361/201015109",

language = "English",

volume = "521",

journal = "Astronomy \& Astrophysics",

issn = "0004-6361",

publisher = " EDP Sciences",

}

Falgarone, E, Godard, B, Cernicharo, J, de Luca, M, Gerin, M, Phillips, TG, Black, JH, Lis, DC, Bell, TA, Boulanger, F, Coutens, A, Dartois, E, Encrenaz, P, Giesen, T, Goicoechea, JR, Goldsmith, PF, Gupta, H, Gry, C, Hennebelle, P, Herbst, E, Hily-Blant, P, Joblin, C, Kaźmierczak, M, Kołos, R, Krełowski, J, Martin-Pintado, J, Monje, R, Mookerjea, B, Neufeld, DA, Perault, M, Pearson, JC, Persson, C, Plume, R, Salez, M, Schmidt, M, Sonnentrucker, P, Stutzki, J, Teyssier, D, Vastel, C, Yu, S, Menten, K, Geballe, TR, Schlemmer, S, Shipman, R, Tielens, AGGM, Philipp, S, Cros, A, Zmuidzinas, J, Samoska, LA, Klein, K, Lorenzani, A, Szczerba, R, Péron, I, Cais, P, Gaufre, P, Ravera, L, Morris, P, Lord, S & Planesas, P 2010, 'CH+(1-0) and 13CH+(1-0) absorption lines in the direction of massive star-forming regions', Astronomy & Astrophysics, vol. 521, L15. https://doi.org/10.1051/0004-6361/201015109

TY - JOUR

T1 - CH+(1-0) and 13CH+(1-0) absorption lines in the direction of massive star-forming regions

AU - Falgarone, E.

AU - Godard, B.

AU - Cernicharo, J.

AU - de Luca, M.

AU - Gerin, M.

AU - Phillips, T. G.

AU - Black, J. H.

AU - Lis, D. C.

AU - Bell, T. A.

AU - Boulanger, F.

AU - Coutens, A.

AU - Dartois, E.

AU - Encrenaz, P.

AU - Giesen, T.

AU - Goicoechea, J. R.

AU - Goldsmith, P. F.

AU - Gupta, H.

AU - Gry, C.

AU - Hennebelle, P.

AU - Herbst, E.

AU - Hily-Blant, P.

AU - Joblin, C.

AU - Kaźmierczak, M.

AU - Kołos, R.

AU - Krełowski, J.

AU - Martin-Pintado, J.

AU - Monje, R.

AU - Mookerjea, B.

AU - Neufeld, D. A.

AU - Perault, M.

AU - Pearson, J. C.

AU - Persson, C.

AU - Plume, R.

AU - Salez, M.

AU - Schmidt, M.

AU - Sonnentrucker, P.

AU - Stutzki, J.

AU - Teyssier, D.

AU - Vastel, C.

AU - Yu, S.

AU - Menten, K.

AU - Geballe, T. R.

AU - Schlemmer, S.

AU - Shipman, R.

AU - Tielens, A. G. G. M.

AU - Philipp, S.

AU - Cros, A.

AU - Zmuidzinas, J.

AU - Samoska, L. A.

AU - Klein, K.

AU - Lorenzani, A.

AU - Szczerba, R.

AU - Péron, I.

AU - Cais, P.

AU - Gaufre, P.

AU - Ravera, L.

AU - Morris, P.

AU - Lord, S.

AU - Planesas, P.

N1 - M1 - Journal Article

PY - 2010/10

Y1 - 2010/10

N2 - We report the detection of the ground-state rotational transition of the methylidyne cation CH+ and its isotopologue 13CH+ toward the remote massive star-forming regions W33A, W49N, and W51 with the HIFI instrument onboard the Herschel satellite. Both lines are seen only in absorption against the dust continuum emission of the star-forming regions. The CH+ absorption is saturated over almost the entire velocity ranges sampled by the lines-of-sight that include gas associated with the star-forming regions (SFR) and Galactic foreground material. The CH+ column densities are inferred from the optically thin components. A lower limit of the isotopic ratio [ 12CH+] /[ 13CH+] > 35.5 is derived from the absorptions of foreground material toward W49N. The column density ratio, N(CH+)/N(HCO+), is found to vary by at least a factor 10, between 4 and >40, in the Galactic foreground material. Line-of-sight 12CH+ average abundances relative to total hydrogen are estimated. Their average value, N(CH+)/NH > 2.6×10-8, is higher than that observed in the solar neighborhood and confirms the high abundances of CH+ in the Galactic interstellar medium. We compare this result to the predictions of turbulent dissipation regions (TDR) models and find that these high abundances can be reproduced for the inner Galaxy conditions. It is remarkable that the range of predicted N(CH+)/N(HCO+) ratios, from 1 to ~50, is comparable to that observed. Herschel is an ESA space observatory with science instruments provided by European-led Principal Investigator consortia and with important participation from NASA.Appendix (page 6) is only available in electronic form at http://www.aanda.org

AB - We report the detection of the ground-state rotational transition of the methylidyne cation CH+ and its isotopologue 13CH+ toward the remote massive star-forming regions W33A, W49N, and W51 with the HIFI instrument onboard the Herschel satellite. Both lines are seen only in absorption against the dust continuum emission of the star-forming regions. The CH+ absorption is saturated over almost the entire velocity ranges sampled by the lines-of-sight that include gas associated with the star-forming regions (SFR) and Galactic foreground material. The CH+ column densities are inferred from the optically thin components. A lower limit of the isotopic ratio [ 12CH+] /[ 13CH+] > 35.5 is derived from the absorptions of foreground material toward W49N. The column density ratio, N(CH+)/N(HCO+), is found to vary by at least a factor 10, between 4 and >40, in the Galactic foreground material. Line-of-sight 12CH+ average abundances relative to total hydrogen are estimated. Their average value, N(CH+)/NH > 2.6×10-8, is higher than that observed in the solar neighborhood and confirms the high abundances of CH+ in the Galactic interstellar medium. We compare this result to the predictions of turbulent dissipation regions (TDR) models and find that these high abundances can be reproduced for the inner Galaxy conditions. It is remarkable that the range of predicted N(CH+)/N(HCO+) ratios, from 1 to ~50, is comparable to that observed. Herschel is an ESA space observatory with science instruments provided by European-led Principal Investigator consortia and with important participation from NASA.Appendix (page 6) is only available in electronic form at http://www.aanda.org

KW - astrochemistry

KW - ISM: molecules

KW - ISM: kinematics and dynamics

KW - turbulence

UR - http://adsabs.harvard.edu/abs/2010A%26A...521L..15F

U2 - 10.1051/0004-6361/201015109

DO - 10.1051/0004-6361/201015109

M3 - Article

SN - 0004-6361

VL - 521

JO - Astronomy & Astrophysics

JF - Astronomy & Astrophysics

M1 - L15

ER -

CH+(1-0) and 13CH+(1-0) absorption lines in the direction of massive star-forming regions

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