Abstract
Whistler mode wave phenomena observed in the earth’s environment and in the planetary magnetospheres, such as in the vicinity of the Jupiter, Venus, and Saturn are reviewed. Importance of ray tracing technique is stated in connection with the interpretation of these phenomena. A historical review of ray tracing technique is then given. Finally the most recent ray tracing technique, such as 3-D ray tracing in a non-dipolar background magnetic field model is introduced.
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References
Aikyo, K. and T. Ondoh, ‘Propagation of nonducted VLF waves in the vicivicinity of athe plasmapause’, J* Raio Res, Labs, 18, 153–181, 1971.
Allis, W. P., S. J. Buchsbaum, and A. Bers, Waves in anisotropic plasmas, M.I.T. Press, Cambridge, 1963
Angerami, J. J, and J, O. Thomas, ‘The distribution of ions and electrons in the earth’s exosphere’, J. Geophys. Res., 69, 4537, 1964
Brice, N. M. and R. L. Smith, ‘Lower hybrid resonance emissions’, J. Geophys. Res., 70 (1), 71, 1965.
Carpenter, D. L., ‘Whistler evidence of a “knee” in the magnetospheric ionization density profiles’, J. Geophys. Res., 68 (6), 1675, 1963.
Carpenter, D. L., N. Dunckel, and J. F. Walkup, ‘A new, very low frequency phenomenon: whistler trapped below the protonosphere’, J. Geophysical Res., 69, 5009, 1964.
Edgar, B. C., ‘The upper-and lower-frequency cutoffs of magnetospherically reflected whistlers’, J, Geophys. Res,, 81, 205, 1976.
Edgar, B. C., ‘Theory of VLF doppler signatures and their relation to magnetospheric density structure’, J. Geophys, Res,, 81, 3327, 1976.
Eviater, A,, A. M, Lenchek and S, F, Singer, ‘Distributin of density in an ion-exosphere of a non rotating planet’, Phys, Fluid, 7, 1775, 1964.
Gurnett, D. A, R. R. Shaw, R. R, Anderson, and W. S. Kurth and F. L, Scarf, ‘Whistlers observed by Voyager 1: Detection of lightning on Jupiter’, Geophys. Res, Lett, 6, 511, 1979.
Hashimoto, K., I, Kimura and H, Kumagai, ‘Estimation of electron temperature by VLF waves propagating in directions near the resonance cone’, Planet. Space Sci., 25, 871, 1977.
Inan, U. S, and T, F, Bell, ‘The plasmapause as a VLF wave guide’, J. Geophys, Res,, 82, 2819, 1977.
Kimura, I., ‘Effects of ions on whistler mode ray tracing’, Radio Sci,, 1, 269, 1966.
Kimura, I,, ‘Drifting whistler cut-off phenomena —striations— observed by POGO satellites’, Space Res,, XI, 1331, 1971.
Kimura, I., H. Matsumoto, T, Mukai, K, Hashimoto, T, F. Bell, U. S. Inan, R. A. Helliwell, and J, P. Katsufrakis, ‘EXOS-B/Siple Station VLF wave-particle interaction experiments: 1, General description and wave-particle correlations’, J, Geophys, Res,, 88 (Al), 282, 1983.
Kimura, I., T, Matsuo, M, Tsuda, and K, Yamauchi, ‘3-D ray tracing of whistler mode waves in a non-diplar magnetosphere’, contributed to J. Geomag. Geoelectr., 1985.
Ksanfomaliti, L, V, N, M. Vasil°chikov, O, F. Ganpantserova, E. V, Petrova, A. 0, Sowvorov, G, F, Filippov, 0. V, Vablonskaya, L, V, Yabrova, ‘Electrical dischanges in the atmosphere of Venus’, Pisma Astron. Zh,, 5, 229, 1979.
Maeda, K, and I, Kimura, ‘A theoretical investigation on the propagation path of the whistling atmospherics’, Rept, lonos. Res, Japan, 10, 105, 1956.
Matsuo, T., I, kimura and H. Yamagishi, ‘ISIS-I and ISIS-II observation of emissions triggered by doppler shifted Norway Ommega signals’, Mem. Natl. Inst. Polar Res, in press, 1985.
Menietti, J. D. and D. A, Gurnett, ‘Whistelr propagation in the Jovian magnetosphere’, J. Geophys, Res, Lett, 7, 49, 1980.
Scarabucci, R, R., ‘Satellite observations of equatorial phenomena and defocusing of VLF electromagnetic waves’, J, Geophys. Res,, 75(1), 69, 1970.
Scarf, F, L., W, W, Taylor, C, T, Russell and L, H. Brace, ‘Lightning on Venus: Orbiter detection of whistler signals’, J, Geophys, Res,, 85, A13, 8158, 1980.
Scarf, F, L,, D, A, Gurnett and W, S, Kurth, ‘Measurements of plasma wave spectra in Jupiter0s magnetosphere’, J, Geophys, Res,, 86, A10, 8181, 1981.
Scarf, F, L., D, A. Gurnett, W, S, Kurth and R, L. Poynter, ‘Voyager plasma wave measurements at Saturn’, J. Geophys, Res,, 88, All, 8971, 1983.
Smith, R. L. and N. M. Brice, ‘Propagation in multicomponent plasmas’, J. Geophys. Res., 69, 5029, 1964.
Smith, R. L., I. Kimura, J. Vigneron, and J. Katsufrakis, ‘Lower hybrid resonance noise and a new ionospheric duct’, J. Geophys. Res., 71 (7), 1925, 1966.
Smith, R. L. and J. J. Angerami, ‘Magnetospheric properties deduced from 0G0 1 observations of ducted and nonducted whistlers’, J. Geophys. Res., 73, 1, 1968.
Stix, T. H., The theory of plasma waves, McGraw-Hill Book Co. Inc, 1962.
Storey, L. R. O, ‘An investigation of whistling atmospherics’, Phil. Trans. Roy. Soc. Lond., A246, 113, 1953.
Walter, F. and J. J. Angerami, ‘Nonducted mode of VLF propagation between conjugate hemispheres: Observations on OGO’s 2 and 4 of the ‘walking trace’ whistler and of doppler shifts in fixed frequency transmissions’, J. Geophys. Res., 74 (26), 6352, 1969.
Yabroff, I., ‘Computation of whistler ray paths’, J. Res. NBS 65D, 485, 1961.
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© 1985 D. Reidel Publishing Company
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Kimura, I. (1985). Whistler Mode Propagation in the Earth and Planetary Magnetospheres and Ray Ttracing Techniques. In: Ashour-Abdalla, M., Dutton, D.A. (eds) Space Plasma Simulations. Springer, Dordrecht. https://doi.org/10.1007/978-94-009-5454-0_27
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DOI: https://doi.org/10.1007/978-94-009-5454-0_27
Publisher Name: Springer, Dordrecht
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