THE ROTATIONAL SPECTRA OF O-17 SUBSTITUTED OXYGEN SINGLET DELTA
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Date
2012
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Volume Title
Publisher
Ohio State University
Abstract
As part of a comprehensive review on molecular oxygen spectroscopy we have measured rotational spectra of isotopic forms of molecular oxygen in its $a^1\Delta_g$ electronic state with high resolution THz spectroscopy. A previously described static discharge cell has been utilized to record spectra of rare isotopologues of excited oxygen$^1$. In this work the data set is extended to include all of the $^{17}$O substituted isotopologues of O$_2$ $^1\Delta$. The spectral features were detected in close proximity to predicted positions. Due to the high resolution and good signal to noise ratio, the fundamental hyperfine parameters $eQq$ and $C_I$ are determinable for $^{17}$O substituted species for the first time. A refined nuclear spin-orbit coupling constant, $a = -211.9328(283)$ MHz, was determined, and is roughly two orders of magnitude more precise than values determined from near infrared spectroscopy or electron spin resonance studies. Weak signals of vibrationally excited oxygen in the $ a^1\Delta_g$ electronic state were also observable for many of the rotational transitions. \\ $^1$ H. Gupta, S. Yu, B.J. Drouin, C.E. Miller - RC03, International Symposium on Molecular Spectroscopy, Ohio State University, 2010.\\
Description
Author Institution: Jet Propulsion Laboratory, California Institute of Technology, Pasadena, CA 91109-8099; I. Physikalisches Institut, Universitat zu Koln, Zulpicher Str. 77, D-50937, Koln, Germany