[11] Kaya, N. & Matsumoto, H. (1981) Space chamber experiments of ohmic heating by high power microwave from the Solar Power Satellite, Geophysical Research Letters, 8, pp. 1289-1292. [12] Matsumoto, H. (1982) Numerical estimation of SPS microwave impact on ionospheric environment, Acta Astronautica 9, pp. 493-497. [13] Chernoff, R. (1980) Active Retrodirective Arrays for SPS Beam Pointing, Solar Power Satellite Microwave Power Transmission and Reception. NASA CP 2141, pp. 79-101. [14] Nagatomo, M., Kaya, N. & Matsumoto, H. (1986) Engineering aspect of the microwave ionosphere nonlinear interaction experiment (MINIX) with a sounding rocket, Acta Astronautica, 13, pp. 23-29. [15] Kaya, N., Matsumoto, H., Miyatake, S., Kimura, I., Nagatomo, M. & Obayashi, T. (1986) Nonlinear interaction of strong microwave beam with the ionosphere, Space Power, 6, pp. 181-186. [16] Matsumoto, H. & Kimura, T. (1988) Nonlinear excitation of electron cyclotron waves by a monochromatic strong microwave, Space Power, 6, pp. 187-191. [17] Kimura, I., Matsumoto, H., Kaya, N. & Miyatake, S. (1988) Plasma wave excitation by intense microwave transmission from a space vehicle., Advances in Space Research, 8, pp. 291-294. [18] Matsumoto, H., Kaya, N., Nagatomo, M., Kojima, H., Sato, T., Tsutsui, M., Katagi, T., Fujita, Y., Nakatsukasa, K., Ijichi, K., Eishima, K., Yamada, Y., Hashizume, T. & Sasaki, S. Development of Microwave Energy Transmission Technology (I) (in Japanese), ISAS Report, to be published.
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