Rotationally resolved threshold photoelectron spectra of OH and OD
- 15 July 1992
- journal article
- research article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 97 (2) , 768-772
- https://doi.org/10.1063/1.463179
Abstract
The results of combined experimental and theoretical studies of the rotationally resolved photoelectron spectra of OH and OD following single‐photon ionization are presented. The measured zero‐kinetic‐energy (ZEKE) spectra were obtained using pulsed field ionization in conjunction with a vacuum ultraviolet lasersource. The OH+ and OD+ (X 3Σ−, v +=0) rotational distributions were studied over the range 95.0–95.4 nm. Agreement between the observed and calculated spectra is very encouraging. Improved values for the ionization potentials of OH and OD (104 989 and 105 085±2 cm−1, respectively) are reported and the unusual dynamics favoring ΔN<0 transitions are discussed.Keywords
This publication has 26 references indexed in Scilit:
- Rotational branching ratios and photoelectron angular distributions in resonance enhanced multiphoton ionization of diatomic moleculesThe Journal of Chemical Physics, 1991
- Rotationally resolved photoelectron spectroscopy of the 2Σ− Rydberg states of OH: The role of Cooper minimaThe Journal of Chemical Physics, 1991
- (2+1) resonance-enhanced multiphoton ionization–photoelectron spectroscopy of the OH radicalThe Journal of Chemical Physics, 1991
- Rotationally resolved photoionization of O2+ near thresholdChemical Physics Letters, 1989
- The ionization energy of nitric oxideChemical Physics Letters, 1988
- Frequency tripling into the 720–1025-Å region with pulsed free jetsReview of Scientific Instruments, 1987
- U.V. photoelectron spectroscopy of OH and OD radicalsMolecular Physics, 1984
- The photoelectron spectra of the OH and OD radicalsChemical Physics Letters, 1977
- Laser-induced fluorescence determination of internal-state distribution of OH produced by H+NO2 in crossed molecular beamsThe Journal of Chemical Physics, 1976
- Measurement of the Hanle Effect for the OH RadicalPhysical Review B, 1969