Radiation of Ultra Low Frequency Electromagnetic Waves from Atmosphere under the Influence of Strong Shock Waves
Radiation of Ultra Low Frequency Electromagnetic Waves from Atmosphere under the Influence of Strong Shock Waves
摘要
We present preliminary results from the experimental investigation of the response of the atmosphere due to the impact of powerful shock waves. The response is evidenced as ultra low frequency electromagnetic wave radiation at frequency of 2-5 kHz and in duration of 3 7s. We hypothesize that this radiation appears due to the following process: the shock wave ionizes the neutral particles in the air and these charged and neutral particles continue their vertical motion, which forms in the trail of the shock wave. Such motion can cause the cyclotron-like radiation measured.
We present preliminary results from the experimental investigation of the response of the atmosphere due to the impact of powerful shock waves. The response is evidenced as ultra low frequency electromagnetic wave radiation at frequency of 2-5 kHz and in duration of 3 7s. We hypothesize that this radiation appears due to the following process: the shock wave ionizes the neutral particles in the air and these charged and neutral particles continue their vertical motion, which forms in the trail of the shock wave. Such motion can cause the cyclotron-like radiation measured.
参考文献10
-
1Nemec F, Santolik O and Parrot M 2009 J. Geophys. Res. 114 A04303.
-
2Nemec F, Santolik 0, Parrot M and Berthelier J J 2008 Geophys. Res. Lett. 35 L05109.
-
3Sarkar S, Gwal A K and Parrot M 2007 J. Atmos. Sol.-Terr.Phys. 69 1524.
-
4Parrot M 2009 Anomalous seismic phenomena: View from space in Electromagnetic Phenomena Associated with Earthquakes ed Hayakawa M (Transworld Research Network) pp 205-233.
-
5Galperin Yu and Hayakawa M 1998 Earth Planets Space 50 827.
-
6Galperin Yu and Hayakawa M 1996 Geomag. Geoeleciri. 48 1241.
-
7Vardanyan V V, Galechyan G A, Perepelkin V G and Chunchuzov I P 2011 Tech. Phys. 56 1524.
-
8Aramyan A R, Aramyan S A and Bilen S G 2013 The 31st International Conference on Phenomena in Ionized Gases (Granada Spain 14-19 July 2013) p 494.
-
9Aramyan A R, Aramyan G R, Haroyan K P, Galechyan G A, Vardanyan A A, Danielyan G A, Nersisyan H Band Bilen S 2011 Acoust. Phys. 57 432.
-
10Donald A G 1990 Rev. Sci. lustrum: 61 3070.
-
1王惠三.在消除溅射中的高能中性粒子问题[J].等离子体应用技术快报,1994(9):15-17.
-
2Yukio Fujinawe,柳百琪.1989年伊东地震震群前的电磁波辐射[J].世界科学,1991,13(7):16-17.
-
3田学军.关于直下型地震的电磁波辐射特性[J].地震地质译丛,1996,18(5):27-29.
-
4韩金林.电子学在天文研究中的一些应用[J].电气电子教学学报,2002,24(5):1-4.
-
5杨东湘.电磁波的生物效应与人体健康[J].中国科技博览,2010(21):66-66.
-
6许梅.等离子体宇宙论简介[J].天文爱好者,1997(4):23-25.
-
7纪树臣.太阳的空间观测与研究Ι—太阳电磁波辐射的观测与研究概况[J].云南天文台台刊,1999(2):17-23.
-
8何祚庥,庆承瑞,高崇寿,阮图南.云南宇宙射线站奇特事例的再分析[J].中国科学(A辑),1995,25(6):596-601. 被引量:3
-
9Hengxin Ren,Qinghua Huang,Xiaofei Chen.A new numerical technique for simulating the coupled seismic and electromagnetic waves in layered porous media[J].Earthquake Science,2010,23(2):167-176. 被引量:13
-
10浦群.第24届国际激波学术会议简介[J].力学进展,2005,35(4):616-616.
