Schumann-rezonanciák (Hungarian Wikipedia)

Analysis of information sources in references of the Wikipedia article "Schumann-rezonanciák" in Hungarian language version.

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Schumann W. O. and H. König (1954). „Über die Beobactung von Atmospherics bei geringsten Frequenzen”. Naturwiss 41 (8), 183–184. o. DOI:10.1007/BF00638174.
Volland, H.. Atmospheric Electrodynamics. Springer-Verlag, Berlin (1984)
Sukhorukov A. I. (1991). „On the Schumann resonances on Mars”. Planet. Space Sci. 39 (12), 1673–1676. o. DOI:10.1016/0032-0633(91)90028-9.
Lammer H., T. Tokano, G. Fischer, W. Stumptner, G. J. Molina-Cuberos, K. Schwingenschuh, H. O. Rucher (2001). „Lightning activity of Titan: can Cassiny/Huygens detect it?”. Planet. Space Sci. 49 (6), 561–574. o. DOI:10.1016/S0032-0633(00)00171-9.
Molina-Cuberos G. J., J. Porti, B. P. Besser, J. A. Morente, J. Margineda, H. I. M. Lichtenegger, A. Salinas, K. Schwingenschuh, H. U. Eichelberger (2004). „Shumann resonances and electromagnetic transparence in the atmosphere of Titan”. Advances in Space Research 33 (12), 2309–2313. o. DOI:10.1016/S0273-1177(03)00465-4.

doi.org

dx.doi.org

Appleton, E. V. , M. A. F. Barnett (1925). „On Some Direct Evidence for Downward Atmospheric Reflection of Electric Rays”. Proceedings of the Royal Society of London. Series A, Containing Papers of a Mathematical and Physical Character 109 (752), 621–641. o. DOI:10.1098/rspa.1925.0149.
Schumann W. O. (1952). „Über die Ausbreitung sehr Langer elektriseher Wellen um die Signale des Blitzes”. Nuovo Cimento 9 (12), 1116–1138. o. DOI:10.1007/BF02782924.
Schumann W. O. and H. König (1954). „Über die Beobactung von Atmospherics bei geringsten Frequenzen”. Naturwiss 41 (8), 183–184. o. DOI:10.1007/BF00638174.
Balser M. and C. Wagner (1960). „Observations of Earth–ionosphere cavity resonances”. Nature 188 (4751), 638–641. o. DOI:10.1038/188638a0.
Balser M. and C. Wagner (1962). „Diurnal power variations of the Earth–ionosphere cavity modes and their relationship to worldwide thunderstorm activity”. J.G.R 67 (2), 619–625. o. DOI:10.1029/JZ067i002p00619.
Balser M. and C. Wagner (1962). „On frequency variations of the Earth–ionosphere cavity modes”. J.G.R 67 (10), 4081–4083. o. DOI:10.1029/JZ067i010p04081.
Boccippio, D. J., E. R. Williams, S. J. Heckman, W. A. Lyons, I. T. Baker, R. Boldi (1995). „Sprites, ELF transients, and positive ground strokes”. Science 269 (5227), 1088–1091. o. DOI:10.1126/science.269.5227.1088. PMID 17755531.
Hu, W., S. A. Cummer, W. A. Lyons, T. E. Nelson (2002). „Lightning charge moment changes for the initiation of sprites”. G.R.L. 29 (8), 1279. o. DOI:10.1029/2001GL014593.
Eden, H. F. and B. Vonnegut (1973). „Electrical breakdown caused by dust motion in low-pressure atmospheres: consideration for Mars”. Science 180 (4089), 962. o. DOI:10.1126/science.180.4089.962. PMID 17735929.
Renno N. O., A. Wong, S. K. Atreya, I. de Pater, M. Roos-Serote (2003). „Electrical discharges and broadband radio emission by Martian dust devils and dust storms”. G. R. L. 30 (22), 2140. o. DOI:10.1029/2003GL017879.
Sukhorukov A. I. (1991). „On the Schumann resonances on Mars”. Planet. Space Sci. 39 (12), 1673–1676. o. DOI:10.1016/0032-0633(91)90028-9.
Molina-Cuberos G. J., J. A. Morente, B. P. Besser, J. Porti, H. Lichtenegger, K. Schwingenschuh, A. Salinas, J. Margineda (2006). „Schumann resonances as a tool to study the lower ionosphere of Mars”. Radio Science 41, RS1003. o. DOI:10.1029/2004RS003187.
Pechony, O., C. Price (2004). „Schumann resonance parameters calculated with a partially uniform knee model on Earth, Venus, Mars, and Titan”. Radio Sci. 39 (5), RS5007. o. DOI:10.1029/2004RS003056.
Lammer H., T. Tokano, G. Fischer, W. Stumptner, G. J. Molina-Cuberos, K. Schwingenschuh, H. O. Rucher (2001). „Lightning activity of Titan: can Cassiny/Huygens detect it?”. Planet. Space Sci. 49 (6), 561–574. o. DOI:10.1016/S0032-0633(00)00171-9.
Morente J. A., Molina-Cuberos G. J., Porti J. A., K. Schwingenschuh, B. P. Besser (2003). „A study of the propagation of electromagnetic waves in Titan’s atmosphere with the TLM numerical method”. Icarus 162 (2), 374–384. o. DOI:10.1016/S0019-1035(03)00025-3.
Molina-Cuberos G. J., J. Porti, B. P. Besser, J. A. Morente, J. Margineda, H. I. M. Lichtenegger, A. Salinas, K. Schwingenschuh, H. U. Eichelberger (2004). „Shumann resonances and electromagnetic transparence in the atmosphere of Titan”. Advances in Space Research 33 (12), 2309–2313. o. DOI:10.1016/S0273-1177(03)00465-4.
Nickolaenko A. P., B. P. Besser, K. Schwingenschuh (2003). „Model computations of Schumann resonance on Titan”. Planet. Space Sci. 51 (13), 853–862. o. DOI:10.1016/S0032-0633(03)00119-3.
Bar-Nun A. (1975). „Thunderstorms on Jupiter”. ICARUS 24, 86–94. o. DOI:10.1016/0019-1035(75)90162-1.
Sentman D. D. (1990). „Electrical conductivity of Jupiter's Shallow interior and the formation of a resonant planetary-ionosphere cavity”. ICARUS 88, 73–86. o. DOI:10.1016/0019-1035(90)90177-B.

nih.gov

pubmed.ncbi.nlm.nih.gov

Boccippio, D. J., E. R. Williams, S. J. Heckman, W. A. Lyons, I. T. Baker, R. Boldi (1995). „Sprites, ELF transients, and positive ground strokes”. Science 269 (5227), 1088–1091. o. DOI:10.1126/science.269.5227.1088. PMID 17755531.
Eden, H. F. and B. Vonnegut (1973). „Electrical breakdown caused by dust motion in low-pressure atmospheres: consideration for Mars”. Science 180 (4089), 962. o. DOI:10.1126/science.180.4089.962. PMID 17735929.

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What and Where is the Natural Noise Floor? John Meloy, AJ6LS