Volume 97, №4
LASER SPARK-FREE INITIATION OF A SUBCRITICAL MICROWAVE DISCHARGE
Experimental study has been made of the ignition of a subcritical microwave discharge at pressures in the range 55–79 Torr with the initiation by pulsed laser radiation (58 mJ in a pulse). A rise of 36% in the critical pressure was obtained to form the discharge with the orientation of the laser beam along the vector of the microwave-fi eld strength. Computer modeling has shown that upon the traversal of a focused laser beam, a highly conductive laser trail can be formed with a peak ionization degree as high as 10%, which, for a period of the order of 1 μs, locally enhances the electric microwave fi eld up to supercritical values.
Experimental study has been made of the ignition of a subcritical microwave discharge at pressures in the range 55–79 Torr with the initiation by pulsed laser radiation (58 mJ in a pulse). A rise of 36% in the critical pressure was obtained to form the discharge with the orientation of the laser beam along the vector of the microwave-fi eld strength. Computer modeling has shown that upon the traversal of a focused laser beam, a highly conductive laser trail can be formed with a peak ionization degree as high as 10%, which, for a period of the order of 1 μs, locally enhances the electric microwave fi eld up to supercritical values.
Author: Yu. V. Dobrov, V. A. Lashkov, I. Ch. Mashek, A. M. Prokshin, M. E. Renev, R. S. Khoronzhuk
Keywords: microwave discharge, laser radiation, plasma, subcritical discharge, experiment, numerical modeling
Page: 1068 - 1081
Yu. V. Dobrov, V. A. Lashkov, I. Ch. Mashek, A. M. Prokshin, M. E. Renev, R. S. Khoronzhuk .
LASER SPARK-FREE INITIATION OF A SUBCRITICAL MICROWAVE DISCHARGE //Journal of engineering physics and thermophysics.
. Volume 97, №4. P. 1068 - 1081.
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