Anatzki, JürgenJürgenAnatzkiGronwald, FrankFrankGronwald2019-02-152019-02-152011-08-01Advances in Radio Science (9): 323-328 (2011-08-08)http://hdl.handle.net/11420/2008In the context of numerical computation of indirect lightning effects it is customary to use volume-discretizing methods in time domain, such as the Finite Difference Time Domain (FDTD) method, the Finite Integration Technique (FIT), or the Transmission Line Matrix (TLM) method. If standard lightning electromagnetic pulses (LEMPs) of tenths of microseconds duration are used as excitations, these methods require long computation times, as implied by the Courant criterion. It is proposed to use shorter pulse forms and to compare the transfer functions obtained by different pulse durations by means of macromodels that are obtained from the vector fitting method. Numerical computation of lightning related transfer functions of a canonical structure indicate that the duration of the exciting pulse can typically be shortened by at least one order of magnitude if compared to a standard pulse. © 2011 Author(s) CC Attribution 3.0 License.en1684-9965Advances in radio science2011323328U.R.S.I.-Landesausschuss in der Bundesrepublik Deutschland e.V.https://creativecommons.org/licenses/by/3.0/IngenieurwissenschaftenAccelerating the numerical computation of indirect lightning effects by means of vector fittingJournal Articleurn:nbn:de:gbv:830-882.02630910.15480/882.200510.5194/ars-9-323-201110.15480/882.2005Other