Rotational spectra of the carbon chain free radicals C10H, C12H, C13H, and C14H

C. A. Gottlieb; M. C. McCarthy; M. J. Travers; J. U. Grabow; P. Thaddeus

doi:10.1063/1.477161

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Originalsprache	Englisch
Seiten (von - bis)	5433-5438
Seitenumfang	6
Fachzeitschrift	Journal of Chemical Physics
Jahrgang	109
Ausgabenummer	13
Publikationsstatus	Veröffentlicht - 1998

Abstract

The four carbon chain radicals C₁₀H, C₁₂H, C₁₃H, and C₁₄H have been observed in a pulsed supersonic molecular beam with a Fourier transform microwave spectrometer. The radicals were produced in a discharge through a dilute diacetylene/neon mixture in the throat of a supersonic nozzle. All are linear with ²Π electronic ground states, and all except C₁₄H have resolved lambda-type doubling. For each species at least ten rotational transitions, between 6 and 16 GHz, were measured in the lowest spin component, which is ²Π_3/2 for C₁₀H, C₁₂H, and C₁₄H, and ²Π_1/2 for C₁₃H. Only three spectroscopic constants in the standard Hamiltonian for a molecule in a ²Π state were required to reproduce the spectra to a few parts in 10⁷: an effective rotational constant, a centrifugal distortion constant, and a lambda-type doubling constant. All of the chains here have abundances in the most intense part of the supersonic molecular beam of ≥5×10⁹ per gas pulse, which suggests that optical transitions of all four may be detectable with present laser techniques. For the carbon chain radicals with an even number of carbon atoms, there is very little change in relative abundance from C₆H to C₁₄H.

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Physik und Astronomie (insg.)
Allgemeine Physik und Astronomie
Chemie (insg.)
Physikalische und Theoretische Chemie

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Rotational spectra of the carbon chain free radicals C₁₀H, C₁₂H, C₁₃H, and C₁₄H. / Gottlieb, C. A.; McCarthy, M. C.; Travers, M. J. et al.
in: Journal of Chemical Physics, Jahrgang 109, Nr. 13, 1998, S. 5433-5438.

Publikation: Beitrag in Fachzeitschrift › Artikel › Forschung › Peer-Review

Gottlieb, CA, McCarthy, MC, Travers, MJ, Grabow, JU & Thaddeus, P 1998, 'Rotational spectra of the carbon chain free radicals C₁₀H, C₁₂H, C₁₃H, and C₁₄H', Journal of Chemical Physics, Jg. 109, Nr. 13, S. 5433-5438. https://doi.org/10.1063/1.477161

Gottlieb, C. A., McCarthy, M. C., Travers, M. J., Grabow, J. U., & Thaddeus, P. (1998). Rotational spectra of the carbon chain free radicals C₁₀H, C₁₂H, C₁₃H, and C₁₄H. Journal of Chemical Physics, 109(13), 5433-5438. https://doi.org/10.1063/1.477161

Gottlieb CA, McCarthy MC, Travers MJ, Grabow JU, Thaddeus P. Rotational spectra of the carbon chain free radicals C₁₀H, C₁₂H, C₁₃H, and C₁₄H. Journal of Chemical Physics. 1998;109(13):5433-5438. doi: 10.1063/1.477161

Gottlieb, C. A. ; McCarthy, M. C. ; Travers, M. J. et al. / Rotational spectra of the carbon chain free radicals C₁₀H, C₁₂H, C₁₃H, and C₁₄H. in: Journal of Chemical Physics. 1998 ; Jahrgang 109, Nr. 13. S. 5433-5438.

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title = "Rotational spectra of the carbon chain free radicals C10H, C12H, C13H, and C14H",

abstract = "The four carbon chain radicals C10H, C12H, C13H, and C14H have been observed in a pulsed supersonic molecular beam with a Fourier transform microwave spectrometer. The radicals were produced in a discharge through a dilute diacetylene/neon mixture in the throat of a supersonic nozzle. All are linear with 2Π electronic ground states, and all except C14H have resolved lambda-type doubling. For each species at least ten rotational transitions, between 6 and 16 GHz, were measured in the lowest spin component, which is 2Π3/2 for C10H, C12H, and C14H, and 2Π1/2 for C13H. Only three spectroscopic constants in the standard Hamiltonian for a molecule in a 2Π state were required to reproduce the spectra to a few parts in 107: an effective rotational constant, a centrifugal distortion constant, and a lambda-type doubling constant. All of the chains here have abundances in the most intense part of the supersonic molecular beam of ≥5×109 per gas pulse, which suggests that optical transitions of all four may be detectable with present laser techniques. For the carbon chain radicals with an even number of carbon atoms, there is very little change in relative abundance from C6H to C14H.",

author = "Gottlieb, {C. A.} and McCarthy, {M. C.} and Travers, {M. J.} and Grabow, {J. U.} and P. Thaddeus",

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journal = "Journal of Chemical Physics",

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AU - Gottlieb, C. A.

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AU - Thaddeus, P.

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N2 - The four carbon chain radicals C10H, C12H, C13H, and C14H have been observed in a pulsed supersonic molecular beam with a Fourier transform microwave spectrometer. The radicals were produced in a discharge through a dilute diacetylene/neon mixture in the throat of a supersonic nozzle. All are linear with 2Π electronic ground states, and all except C14H have resolved lambda-type doubling. For each species at least ten rotational transitions, between 6 and 16 GHz, were measured in the lowest spin component, which is 2Π3/2 for C10H, C12H, and C14H, and 2Π1/2 for C13H. Only three spectroscopic constants in the standard Hamiltonian for a molecule in a 2Π state were required to reproduce the spectra to a few parts in 107: an effective rotational constant, a centrifugal distortion constant, and a lambda-type doubling constant. All of the chains here have abundances in the most intense part of the supersonic molecular beam of ≥5×109 per gas pulse, which suggests that optical transitions of all four may be detectable with present laser techniques. For the carbon chain radicals with an even number of carbon atoms, there is very little change in relative abundance from C6H to C14H.

AB - The four carbon chain radicals C10H, C12H, C13H, and C14H have been observed in a pulsed supersonic molecular beam with a Fourier transform microwave spectrometer. The radicals were produced in a discharge through a dilute diacetylene/neon mixture in the throat of a supersonic nozzle. All are linear with 2Π electronic ground states, and all except C14H have resolved lambda-type doubling. For each species at least ten rotational transitions, between 6 and 16 GHz, were measured in the lowest spin component, which is 2Π3/2 for C10H, C12H, and C14H, and 2Π1/2 for C13H. Only three spectroscopic constants in the standard Hamiltonian for a molecule in a 2Π state were required to reproduce the spectra to a few parts in 107: an effective rotational constant, a centrifugal distortion constant, and a lambda-type doubling constant. All of the chains here have abundances in the most intense part of the supersonic molecular beam of ≥5×109 per gas pulse, which suggests that optical transitions of all four may be detectable with present laser techniques. For the carbon chain radicals with an even number of carbon atoms, there is very little change in relative abundance from C6H to C14H.

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Research@Leibniz University

Rotational spectra of the carbon chain free radicals C₁₀H, C₁₂H, C₁₃H, and C₁₄H

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