Prompt nuclear EMP and Synchrotron radiation: a resolution of two approaches
The geomagnetic component of nuclear EMP generated by the prompt (t/sub max//spl sim/2 /spl mu/s) /spl gamma/-ray, neutron, and X-ray radiation from a nuclear explosion has been the subject of intense scrutiny for over 40 years. Recent work by certain members of the scientific community has suggeste...
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| Published in | IEEE transactions on electromagnetic compatibility Vol. 47; no. 3; pp. 552 - 558 |
|---|---|
| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
New York, NY
IEEE
01.08.2005
Institute of Electrical and Electronics Engineers The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0018-9375 1558-187X |
| DOI | 10.1109/TEMC.2005.851724 |
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| Abstract | The geomagnetic component of nuclear EMP generated by the prompt (t/sub max//spl sim/2 /spl mu/s) /spl gamma/-ray, neutron, and X-ray radiation from a nuclear explosion has been the subject of intense scrutiny for over 40 years. Recent work by certain members of the scientific community has suggested that a discrepancy exists in the calculations/derivation of nuclear EMP between treatments based on Maxwell's equations and the high-frequency approximation and those derived from a summation over particles emitting synchrotron radiation. In principle, the two approaches should be identical simply because the well-known Lie/spl acute/nard-Wiechert potentials for accelerating particles are derived from Maxwell's equations. In this paper, we start from the Lie/spl acute/nard-Wiechert potentials and derive an expression for nuclear EMP that is identical to previous work based on a solution of Maxwell's equations. Thus, the putative discrepancy between the two approaches is resolved and Maxwell's equations in this regard are again vindicated. |
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| AbstractList | The geomagnetic component of nuclear EMP generated by the prompt (t/sub max//spl sim/2 /spl mu/s) /spl gamma/-ray, neutron, and X-ray radiation from a nuclear explosion has been the subject of intense scrutiny for over 40 years. Recent work by certain members of the scientific community has suggested that a discrepancy exists in the calculations/derivation of nuclear EMP between treatments based on Maxwell's equations and the high-frequency approximation and those derived from a summation over particles emitting synchrotron radiation. In principle, the two approaches should be identical simply because the well-known Lie/spl acute/nard-Wiechert potentials for accelerating particles are derived from Maxwell's equations. In this paper, we start from the Lie/spl acute/nard-Wiechert potentials and derive an expression for nuclear EMP that is identical to previous work based on a solution of Maxwell's equations. Thus, the putative discrepancy between the two approaches is resolved and Maxwell's equations in this regard are again vindicated. The geomagnetic component of nuclear EMP generated by the prompt (t sub(max) similar to 2 mu s) gamma -ray, neutron, and X-ray radiation from a nuclear explosion has been the subject of intense scrutiny for over 40 years. Recent work by certain members of the scientific community has suggested that a discrepancy exists in the calculations/derivation of nuclear EMP between treatments based on Maxwell's equations and the high-frequency approximation and those derived from a summation over particles emitting synchrotron radiation. In principle, the two approaches should be identical simply because the well-known Lienard-Wiechert potentials for accelerating particles are derived from Maxwell's equations. In this paper, we start from the Lienard-Wiechert potentials and derive an expression for nuclear EMP that is identical to previous work based on a solution of Maxwell's equations. Thus, the putative discrepancy between the two approaches is resolved and Maxwell's equations in this regard are again vindicated. The geomagnetic component of nuclear EMP generated by the prompt (t/sub max//spl sim/2 mus) /spl gamma/-ray, neutron, and X-ray radiation from a nuclear explosion has been the subject of intense scrutiny for over 40 years. Recent work by certain members of the scientific community has suggested that a discrepancy exists in the calculations/derivation of nuclear EMP between treatments based on Maxwell's equations and the high-frequency approximation and those derived from a summation over particles emitting synchrotron radiation. In principle, the two approaches should be identical simply because the well-known Lie/spl acute/nard-Wiechert potentials for accelerating particles are derived from Maxwell's equations. In this paper, we start from the Lie/spl acute/nard-Wiechert potentials and derive an expression for nuclear EMP that is identical to previous work based on a solution of Maxwell's equations. Thus, the putative discrepancy between the two approaches is resolved and Maxwell's equations in this regard are again vindicated. |
| Author | Roussel-Dupre, R.A. |
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| Cites_doi | 10.1029/JZ067i012p04635 10.1103/PhysRev.137.B1369 10.1109/TAP.1978.1141796 10.1103/PhysRev.126.1919 |
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| Keywords | Nuclear radiation Geophysics Radiation effect Electromagnetic compatibility Nuclear explosion Electromagnetic pulse EMP radiation effects Maxwell equation Maxwell equations nuclear explosions Comparative study Synchrotron radiation |
| Language | English |
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| References | Radasky (ref13) 2004 Karzas (ref3) 1963 Suydam (ref11) 1966 Knight (ref12) 1970 Price (ref8) 2003 ref2 ref1 Longley (ref14) 1972 Longmire (ref6) ref9 Jackson (ref10) 1999 ref4 Longmire (ref5) 1961 Longmire (ref7) 1983; II |
| References_xml | – ident: ref1 doi: 10.1029/JZ067i012p04635 – ident: ref4 doi: 10.1103/PhysRev.137.B1369 – year: 1970 ident: ref12 article-title: EMP environmental codes for high- and low-altitude bursts publication-title: AFWL-TR-70-23 – year: 1972 ident: ref14 article-title: Development of the CHAP EMP code publication-title: DNA 3150T – start-page: 665 volume-title: Classical Electrodynamics year: 1999 ident: ref10 – volume-title: Theory of the Radio Flash, Part VI: High Frequency Signal from a Ground Burst, LA-3532-MS year: 1966 ident: ref11 – ident: ref9 doi: 10.1109/TAP.1978.1141796 – volume-title: LAMS-3073, Los Alamos Scientific Lab. ident: ref6 article-title: Close-in E.M. effects lectures X and IX – year: 2003 ident: ref8 publication-title: GMP Modeling, SRI International, Tech. Note – ident: ref2 doi: 10.1103/PhysRev.126.1919 – volume-title: Effect of compton electrons on earth’s magnetic field year: 1961 ident: ref5 – year: 2004 ident: ref13 publication-title: Metatech Corporation – volume-title: Tech. Rep. RM-3670-AFT year: 1963 ident: ref3 article-title: Electromagnetic signals from high-altitude nuclear explosions – volume: II start-page: 135 volume-title: CRC Handbook of Atmospheric Electrodynamics year: 1983 ident: ref7 article-title: Electromagnetic effects of nuclear explosions |
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| Snippet | The geomagnetic component of nuclear EMP generated by the prompt (t/sub max//spl sim/2 /spl mu/s) /spl gamma/-ray, neutron, and X-ray radiation from a nuclear... The geomagnetic component of nuclear EMP generated by the prompt (t sub(max) similar to 2 mu s) gamma -ray, neutron, and X-ray radiation from a nuclear... The geomagnetic component of nuclear EMP generated by the prompt (t/sub max//spl sim/2 mus) /spl gamma/-ray, neutron, and X-ray radiation from a nuclear... |
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| SubjectTerms | Applied sciences Approximation Communities Derivation Earth sciences Earth, ocean, space Electromagnetic compatibility EMP radiation effects Engineering and environment geology. Geothermics Exact sciences and technology Information, signal and communications theory Mathematical analysis Maxwell equations Maxwell's equations Nuclear explosions Pollution, environment geology Radiocommunications Synchrotron radiation Telecommunications Telecommunications and information theory X-rays |
| Title | Prompt nuclear EMP and Synchrotron radiation: a resolution of two approaches |
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