[1] IEC 6100029, Electromagic compatibility (EMC)—Part 2: environment—section 9: deion of HEMP environment—radiated disturbance[S].
[2] Gilbert J, Radasky W A, Smith K S, et al. HEMP TAPSHEMPPC audit rept[R]. Meta R131, 1999; DTRATR001, 2002.
[5] Gilbert J, Kappenman J, Radasky W, et al. The latetime (E3) highaltitude electromagic pulse (HEMP) its impact on the U. S. power grid[R]. Goleta: Oak Ridge National Labaty, 2010.
[6] Hutchins T. Modeling, simulation, mitigation of the impacts of the late time (E3) highaltitude electromagic pulse on power systems[D]. Urbana: University of Illinois at UrbanaChampaign, 2016.
[7] Lee R H W, Shetye K S, Birchfield A B, et al. Using detailed ground modeling to evaluate electric grid impacts of late-time high-altitude electromagnetic pulses (E3 HEMP)[J]. IEEE Transactions on Power Systems, 34, 1549-1557(2019).
[11] Ngwira C M, Pulkkinen A, McKinnell L A, et al. Improved modeling of geomagnetically induced currents in the South African power network[J]. Space Weather, 6, S11004(2008).
[14] Wait J R. Wave propagation they[M]. New Yk: Pergamon, 1981.
[15] Chew W C. Waves fields in inhomogeneous media[M]. New Yk: IEEE Press, 1995.
[16] Overbye T J, Shetye K S, Hutchins T R, et al. Power grid sensitivity analysis of geomagnetically induced currents[J]. IEEE Transactions on Power Systems, 28, 4821-4828(2013).
[17] TB 100092016, Code f design of railway traction power supply[S].
[18] Zhou You. Research on the effects of different intensities geomagic stms affecting highspeed railway traction wk[D]. Beijing: Nth China Electric Power University, 2016.
[19] Ma Chengyuan. Research on modeling method of strong geomagic stm impacting on highspeed rail electrical primary system[D]. Beijing: Nth China Electric Power University, 2015.
[20] Cao Yuan. Earth resistivity modeling method f the evaluation of Geomagically Induced Current in power grid[D]. Beijing: Nth China Electric Power University, 2010.
[21] DLT 4372012, Technical guide of HVDC earth electrode system[S].
