EPR Spectra of SH, SD, and SO Radicals in the Gaseous State

EPR Spectra of SH, SD, and SO Radicals in the Gaseous State

A 12-line EPR spectrum at a microwave frequency of 8.850 kMc/sec has been observed in the field region from 7400 to 7700 G that is attributed to electric-dipole transitions between Zeeman levels of the J=32 rotational state of gaseous SH(2Π32). Average Λ splittings and proton hyperfine splittings we...

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Veröffentlicht in:Journal of Chemical Physics (U.S.) 1963-11, Vol.39 (10), p.2587-2589
1. Verfasser: McDonald, C. C.
Format: Artikel
Sprache:eng
Schlagworte:
CHEMISTRY
DECOMPOSITION
DIPOLES
ELECTRIC DISCHARGES
ELECTRONS
FREE RADICALS
FREQUENCY
G-VALUE
HEAVY WATER
HYDROGEN SULFIDES
HYPERFINE STRUCTURE
MAGNETIC FIELDS
MAGNETIC RESONANCE
MICROWAVES
PRODUCTION
PROTONS
ROTATION
SPECTRA
SPECTROMETERS
SPECTROSCOPY
SULFHYDRYL RADICALS
VAPORS
WATER
ZEEMAN EFFECT
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Zusammenfassung:A 12-line EPR spectrum at a microwave frequency of 8.850 kMc/sec has been observed in the field region from 7400 to 7700 G that is attributed to electric-dipole transitions between Zeeman levels of the J=32 rotational state of gaseous SH(2Π32). Average Λ splittings and proton hyperfine splittings were 190 G and 5.4 G, respectively. The SH radicals were produced in the spectrometer cavity by adding H2S at the cavity entrance to a stream of discharge-dissociated H2O vapor flowing through the cavity. When H2S was added to a stream of dissociated D2O, an additional spectrum attributed to SD(2Π32,J=32) was observed. Another species in these gaseous systems gives rise to a third EPR spectrum that is believed to result from electric-dipole transitions between Zeeman levels of different rotational states of SO(3Σ).
ISSN:0021-9606
1089-7690
DOI:10.1063/1.1734066