By G. M. Batanov, V. A. Silin (auth.), N. G. Basov (eds.)
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Additional info for The Dissipation of Electromagnetic Waves in Plasmas
H. C. Kim, R. L. Stenzel, and A. Y. Wong, Phys. Rev. , 33:886 (1974). A. D. Piliya, Zh. Tekh. , 36:2195 (1966). V. E. 251. R. A. Stern and N. Tzoar, Phys. Rev. , 17:903 (1966). V. A. SHin, Tr. Fiz. Inst. Akad. 70. H. P. Eubank, Phys. FlUids, 14:2551 (1971). Yu. S. Kas'yanov, V. V. Korobkin, P. P. Pashinin, A. M. Prokhorov, V. K. Chevokin, and M. Ya. Shchelev, Pis'ma Zh. Eksp. Teor. , 20:719 (1974). COLLISIONLESS ABSORPTION OF ELECTROMAGNETIC WAVES IN PLASMAS AND "SLOW" NONLINEAR PHENOMENA V. I.
At the same time, many processes associated with this kind of absorption in various parts of the electromagnetic spectrum (optical, microwave, and rf) will have the same physical interpretation. This opens up extensive possibilities for modeling and generalization. Experiments with small plasmas are typically done in the microwave region since waveguide technology makes it possible to measure directly the most important characteristics of the interaction of the radiation with the plasma, for example, the absorption or reflection coefficients of the incident radiation [6).
Thus, before the microwave pulse was turned on it was possible to have a plasma flow of given length pass through the piston grid. We note that the length of the leading edge of the plasma flow could reach 50-60 cm if the shaping device were not turned on. ) By establishing a fixed delay for triggering the blocking generator relative to the time the plasma source 3 was fired, it was possible in each series of measurements to stabilize the speed vf. This is important for reading out the density from the probe (6) data.
The Dissipation of Electromagnetic Waves in Plasmas by G. M. Batanov, V. A. Silin (auth.), N. G. Basov (eds.)