CO2 laser Stark spectroscopy of the Coriolis-coupled ν2 and ν5 bands of CD3Br

Kensuke Harada; Keiichi Tanaka; Takehiko Tanaka

doi:10.1016/0022-2852(83)90248-5

CO₂ laser Stark spectroscopy of the Coriolis-coupled ν₂ and ν₅ bands of CD₃Br

Kensuke Harada, Keiichi Tanaka, Takehiko Tanaka

Physical Chemistry

Research output: Contribution to journal › Article › peer-review

12 Citations (Scopus)

Abstract

The ν₂ (CD₃ symmetrical deformation) and ν₅ (CD₃ degenerate deformation) fundamental bands of CD₃Br were studied by 9.4- and 10.4-μm CO₂ laser Stark spectroscopy. Stark resonances originating from 28 and 53 rovibrational transitions of the ν₂ and ν₅ bands, respectively, were assigned for each of the isotopic species, CD₃⁷⁹Br and CD₃⁸¹Br. These two bands were simultaneously analyzed with explicit inclusion of the ν₂-ν₅ Coriolis interaction, yielding precise molecular constants in the ν₂ and ν₅ excited states as well as the Coriolis coupling constant. The molecular constants obtained are consistent between the two isotopic species and are in good agreement with the results of high-resolution infrared studies. The band origins and dipole moments are {A table is presented} where the figures in parentheses are three times the standard deviations in the least-squares fit.

Original language	English
Pages (from-to)	349-374
Number of pages	26
Journal	Journal of Molecular Spectroscopy
Volume	98
Issue number	2
DOIs	https://doi.org/10.1016/0022-2852(83)90248-5
Publication status	Published - Jan 1 1983

All Science Journal Classification (ASJC) codes

Atomic and Molecular Physics, and Optics
Spectroscopy
Physical and Theoretical Chemistry

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10.1016/0022-2852(83)90248-5

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title = "CO2 laser Stark spectroscopy of the Coriolis-coupled ν2 and ν5 bands of CD3Br",

abstract = "The ν2 (CD3 symmetrical deformation) and ν5 (CD3 degenerate deformation) fundamental bands of CD3Br were studied by 9.4- and 10.4-μm CO2 laser Stark spectroscopy. Stark resonances originating from 28 and 53 rovibrational transitions of the ν2 and ν5 bands, respectively, were assigned for each of the isotopic species, CD379Br and CD381Br. These two bands were simultaneously analyzed with explicit inclusion of the ν2-ν5 Coriolis interaction, yielding precise molecular constants in the ν2 and ν5 excited states as well as the Coriolis coupling constant. The molecular constants obtained are consistent between the two isotopic species and are in good agreement with the results of high-resolution infrared studies. The band origins and dipole moments are {A table is presented} where the figures in parentheses are three times the standard deviations in the least-squares fit.",

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T1 - CO2 laser Stark spectroscopy of the Coriolis-coupled ν2 and ν5 bands of CD3Br

AU - Harada, Kensuke

AU - Tanaka, Keiichi

AU - Tanaka, Takehiko

PY - 1983/1/1

Y1 - 1983/1/1

N2 - The ν2 (CD3 symmetrical deformation) and ν5 (CD3 degenerate deformation) fundamental bands of CD3Br were studied by 9.4- and 10.4-μm CO2 laser Stark spectroscopy. Stark resonances originating from 28 and 53 rovibrational transitions of the ν2 and ν5 bands, respectively, were assigned for each of the isotopic species, CD379Br and CD381Br. These two bands were simultaneously analyzed with explicit inclusion of the ν2-ν5 Coriolis interaction, yielding precise molecular constants in the ν2 and ν5 excited states as well as the Coriolis coupling constant. The molecular constants obtained are consistent between the two isotopic species and are in good agreement with the results of high-resolution infrared studies. The band origins and dipole moments are {A table is presented} where the figures in parentheses are three times the standard deviations in the least-squares fit.

AB - The ν2 (CD3 symmetrical deformation) and ν5 (CD3 degenerate deformation) fundamental bands of CD3Br were studied by 9.4- and 10.4-μm CO2 laser Stark spectroscopy. Stark resonances originating from 28 and 53 rovibrational transitions of the ν2 and ν5 bands, respectively, were assigned for each of the isotopic species, CD379Br and CD381Br. These two bands were simultaneously analyzed with explicit inclusion of the ν2-ν5 Coriolis interaction, yielding precise molecular constants in the ν2 and ν5 excited states as well as the Coriolis coupling constant. The molecular constants obtained are consistent between the two isotopic species and are in good agreement with the results of high-resolution infrared studies. The band origins and dipole moments are {A table is presented} where the figures in parentheses are three times the standard deviations in the least-squares fit.

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CO₂ laser Stark spectroscopy of the Coriolis-coupled ν₂ and ν₅ bands of CD₃Br

Abstract

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