Infrared radio-frequency double resonance and Zeeman spectroscopy of thioformaldehyde

Abdalla M. Darwish; Jerald A. R. Izatt; Jan C. Petersen

doi:10.1117/12.366457

25 October 1999 Infrared radio-frequency double resonance and Zeeman spectroscopy of thioformaldehyde

Abdalla M. Darwish, Jerald A. R. Izatt, Jan C. Petersen

Proceedings Volume 3758, Application of Tunable Diode and Other Infrared Sources for Atmospheric Studies and Industrial Processing Monitoring II; (1999) https://doi.org/10.1117/12.366457
Event: SPIE's International Symposium on Optical Science, Engineering, and Instrumentation, 1999, Denver, CO, United States

Abstract

Two new double resonance signals were observed in H₂CS using the 10R4 CO₂ laser line. Both radio-frequency transitions have been assigned. Their behavior in a magnetic field up to 10.5 kG has been studied. One signal was pumped by the 9P20 laser line and the other two by the 10R4 laser line. A 10R4 signal observed at 15.8 MHz was assigned to the 11_3.8 yields 11_3.9 transition in the v₆ ground state of H₂CS. The other 10R4 signal, which was observed at 202.8 MHz, was assigned to the 11_2.9 yields 11_2.10 transition in the excited state. This transition is the first to be reported in an excited vibrational state of the electronic ground state. The frequency of this transition was found to be strongly influenced by Coriolis coupling between the v₄ and v₆ states.

Citation Download Citation

Abdalla M. Darwish, Jerald A. R. Izatt, and Jan C. Petersen "Infrared radio-frequency double resonance and Zeeman spectroscopy of thioformaldehyde", Proc. SPIE 3758, Application of Tunable Diode and Other Infrared Sources for Atmospheric Studies and Industrial Processing Monitoring II, (25 October 1999); https://doi.org/10.1117/12.366457

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