J. P. Taran scite author profile

Coherent anti-Stokes Raman scattering is applied to the study of rovibrational populations in magnetic multicusp H2 and D2 discharges. This subject is of interest to negative hydrogen ion formation by volume plasma processes. The populations of high-lying rotational states (J≳5) in the vibrational levels v=0, 1, and 2 are found to be significantly higher than expected from the Boltzmann law. In H2 the net populations of the first four vibrational levels follow approximately the Boltzmann law, with the vibrational temperature of 2390 K (in a 90 V-10 A discharge at 55 μbar). In similar discharge conditions, the population of the state v=3 in D2 is higher than expected from the Boltzmann law. In the presence of the discharge a deficiency in H2 and D2 molecule density was observed and was attributed to the possible presence of H and D atoms. This was verified by an independent measurement of the atomic fraction and temperature. The density of negative ions, measured by the photodetachment technique, is also reported.

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Electronic resonance enhancement of coherent anti-Stokes Raman scattering

Druet

et al. 1978

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On the possibility of measuring gas concentrations by stimulated anti-Stokes scattering

Regnier

Taran

1973

298

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Flow control using various plasma and aerodynamic approaches (Short review)

Фомин

Tretyakov

Taran

2004

Aerospace Science and Technology

139

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Line shape and Doppler broadening in resonant CARS and related nonlinear processes through a diagrammatic approach

1979

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We examine the effect of electronic resonance enhancement on the line broadening for Coherent Anti-Stokes Raman Scattering (CARS) and related third-order non linear processes, in low pressure gases. These phenomena are analysed theoretically within the framework of a time-ordered diagrammatic representation of nonlinear polarizations. Diagrams facilitate the classification of the various physical processes and provide a way to readily derive all the susceptibility contributions. In CARS, the susceptibility terms which are Doppler-free and thus prevail in the Doppler limit are different from those which dominate in the collision broadening regime. This causes important changes in the spectral content. On the contrary, the same terms are seen to dominate, in both regimes, in coherent Stokes Raman scattering or in stimulated Raman scattering. Typical line contours are displayed. The generalization to all nonlinear processes is outlined

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J. P. Taran

Rovibrational molecular populations, atoms, and negative ions in H2 and D2 magnetic multicusp discharges

Electronic resonance enhancement of coherent anti-Stokes Raman scattering

On the possibility of measuring gas concentrations by stimulated anti-Stokes scattering

Flow control using various plasma and aerodynamic approaches (Short review)

Line shape and Doppler broadening in resonant CARS and related nonlinear processes through a diagrammatic approach

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