Measurement of the electronic wave function: Separated atom wave function analysis of theR-dependent hyperfine constants of the iodine monochlorideAstate
Author:
Publisher
AIP Publishing
Subject
Physical and Theoretical Chemistry,General Physics and Astronomy
Link
http://aip.scitation.org/doi/pdf/10.1063/1.1313543
Reference33 articles.
1. An unusual example of angular momentum coupling: the dependence of the hyperfine constants of the A state of ICI on internuclear separation
2. Laser-induced fluorescence and microwave-optical double resonance spectra of the iodine chloride (A .rarw. X, 19 .rarw. 0) vibronic band: measurement of the chlorine atom hyperfine structure
3. Variation of the electronic wave function with internuclear separation: High‐resolution spectroscopy of the A 3Π(1) state of I 35Cl near the dissociation limit
4. Hyperfine analysis of the mixed A 3Π1 v=28 and X 1Σ+ v=69 states of I35Cl
5. Laser spectroscopy and microwave-optical double resonance of a supersonic expansion ICl A 3п (1) υ = 19
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1. Ab initio potential energy curves of the valence, Rydberg, and ion-pair states of iodine monochloride, ICl;The Journal of Chemical Physics;2014-09-14
2. Characterization of the molecular iodine electronic wave functions and potential energy curves through hyperfine interactions in the B0+_u(3Pi_u) state;Journal of the Optical Society of America B;2005-05-01
3. The NaK 1(b)ΠΩ=03 state hyperfine structure and the 1(b)ΠΩ=03∼2(A)Σ+1 spin–orbit interaction;The Journal of Chemical Physics;2005-02-15
4. Hyperfine interactions and perturbation effects in the B0_u^+(^3Π_u) state of ^127I_2;Journal of the Optical Society of America B;2004-04-01
5. Extensive, high-resolution measurement of hyperfine interactions: precise investigations of molecular potentials and wave functions;Chemical Physics Letters;2003-11
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