Hyperfine structure of the BaI X ²Σ + and C²Π states

Wolfgang Ernst; Jörn Kändler; C. Noda; J.S. McKillop; R. N. Zare

doi:10.1063/1.450946

Hyperfine structure of the BaI X ²Σ + and C²Π states

Wolfgang Ernst, Jörn Kändler, C. Noda, J.S. McKillop, R. N. Zare

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

Abstract

Optical-microwave double resonance measurements were carried out to find the hyperfine structure constants of the v=0 level of the BaI X 2∑+ state. These were combined with sub-Doppler optical measurements of the BaI C 2Π-X 2∑ + (0,0) band in order to derive the hyperfine structure constants of the excited state. We have determined the following molecular constants (in MHz) where the numbers in parentheses represent one standard deviation in a least squares fit: for the BaI X 2∑+ state, γ″=75.8501(33), b″=93.117(19), c″=52.170(54), and eQq″=-33.62(12), and for the BaI C 2Π state, a′=263(53), b′+c′=-430(212), d′=-66.7(1.4), and eQq′=-214(11). The Fermi contact interaction and the electric quadrupole coupling constants for both the BaI X and C states appear to arise from the distortion of closed-shell I- orbitals by the field of the Ba + ion. In the BaI X state, the charge distribution on the Ba + center is directed away from I- while in the C state toward I-.

Original language	English
Pages (from-to)	3735-3743
Journal	The Journal of Chemical Physics
Volume	85
Issue number	7
DOIs	https://doi.org/10.1063/1.450946
Publication status	Published - 1986
Externally published	Yes

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Atoms, Molecules, Clusters
Ernst, W. & Windholz, L.
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@article{31760c395693462b99f806f40447673c,

title = "Hyperfine structure of the BaI X ²Σ + and C²Π states",

abstract = "Optical-microwave double resonance measurements were carried out to find the hyperfine structure constants of the v=0 level of the BaI X 2∑+ state. These were combined with sub-Doppler optical measurements of the BaI C 2Π-X 2∑ + (0,0) band in order to derive the hyperfine structure constants of the excited state. We have determined the following molecular constants (in MHz) where the numbers in parentheses represent one standard deviation in a least squares fit: for the BaI X 2∑+ state, γ″=75.8501(33), b″=93.117(19), c″=52.170(54), and eQq″=-33.62(12), and for the BaI C 2Π state, a′=263(53), b′+c′=-430(212), d′=-66.7(1.4), and eQq′=-214(11). The Fermi contact interaction and the electric quadrupole coupling constants for both the BaI X and C states appear to arise from the distortion of closed-shell I- orbitals by the field of the Ba + ion. In the BaI X state, the charge distribution on the Ba + center is directed away from I- while in the C state toward I-.",

author = "Wolfgang Ernst and J{\"o}rn K{\"a}ndler and C. Noda and J.S. McKillop and Zare, {R. N.}",

year = "1986",

doi = "10.1063/1.450946",

language = "English",

volume = "85",

pages = "3735--3743",

journal = "The Journal of Chemical Physics",

issn = "1089-7690",

publisher = "American Institute of Physics Publising LLC",

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TY - JOUR

T1 - Hyperfine structure of the BaI X ²Σ + and C²Π states

AU - Ernst, Wolfgang

AU - Kändler, Jörn

AU - Noda, C.

AU - McKillop, J.S.

AU - Zare, R. N.

PY - 1986

Y1 - 1986

N2 - Optical-microwave double resonance measurements were carried out to find the hyperfine structure constants of the v=0 level of the BaI X 2∑+ state. These were combined with sub-Doppler optical measurements of the BaI C 2Π-X 2∑ + (0,0) band in order to derive the hyperfine structure constants of the excited state. We have determined the following molecular constants (in MHz) where the numbers in parentheses represent one standard deviation in a least squares fit: for the BaI X 2∑+ state, γ″=75.8501(33), b″=93.117(19), c″=52.170(54), and eQq″=-33.62(12), and for the BaI C 2Π state, a′=263(53), b′+c′=-430(212), d′=-66.7(1.4), and eQq′=-214(11). The Fermi contact interaction and the electric quadrupole coupling constants for both the BaI X and C states appear to arise from the distortion of closed-shell I- orbitals by the field of the Ba + ion. In the BaI X state, the charge distribution on the Ba + center is directed away from I- while in the C state toward I-.

AB - Optical-microwave double resonance measurements were carried out to find the hyperfine structure constants of the v=0 level of the BaI X 2∑+ state. These were combined with sub-Doppler optical measurements of the BaI C 2Π-X 2∑ + (0,0) band in order to derive the hyperfine structure constants of the excited state. We have determined the following molecular constants (in MHz) where the numbers in parentheses represent one standard deviation in a least squares fit: for the BaI X 2∑+ state, γ″=75.8501(33), b″=93.117(19), c″=52.170(54), and eQq″=-33.62(12), and for the BaI C 2Π state, a′=263(53), b′+c′=-430(212), d′=-66.7(1.4), and eQq′=-214(11). The Fermi contact interaction and the electric quadrupole coupling constants for both the BaI X and C states appear to arise from the distortion of closed-shell I- orbitals by the field of the Ba + ion. In the BaI X state, the charge distribution on the Ba + center is directed away from I- while in the C state toward I-.

U2 - 10.1063/1.450946

DO - 10.1063/1.450946

M3 - Article

SN - 1089-7690

VL - 85

SP - 3735

EP - 3743

JO - The Journal of Chemical Physics

JF - The Journal of Chemical Physics

IS - 7

ER -

Hyperfine structure of the BaI X ²Σ + and C²Π states

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