F. Ebeling
Darmstadt University of Applied Sciences
11 Papers
196 Citations
F. Ebeling is an academic researcher from Darmstadt University of Applied Sciences. The author has contributed to research in topics: Maxwell's equations & Electromagnetic field solver. The author has an hindex of 6, co-authored 11 publications.
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Papers
Solution of Maxwell's equations
Michael Bartsch,Micha Dehler,Martin Dohlus,F. Ebeling,Peter Hahne,Reinhard Klatt,Frank L. Krawczyk,Michaela Marx,Zhang Min,Thomas Pröpper,Dietmar Schmitt,Petra Schütt,B. Steffen,Bernhard Wagner,Thomas Weiland,S.G. Wipf,Heike Wolter +16 more
TL;DR: In this paper, a numerical approach for the solution of the four Maxwell's equations is presented, based on a finite difference Yee lattice, which transforms each of these equations into an equivalent matrix expression that can be subsequently treated by matrix mathematics and suitable numerical methods for solving matrix problems.
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Maxwell’s grid equations
Reinhard Klatt,T. Barts,Jean Browman,R.K. Cooper,Micha Dehler,Martin Dohlus,F. Ebeling,Alice Fischerauer,Gerhard Fischerauer,Peter Hahne,Frank L. Krawczyk,Michaela Marx,Thomas Pröpper,G. Rodenz,Dan Rusthoi,Petra Schütt,B. Steffen,Thomas Weiland,S.G. Wipf +18 more
TL;DR: In this paper, a numerical approach for the solution of the Maxwell's equation is presented based on a finite difference Yee lattice, which transforms each of the four Maxwell equations into an equivalent matrix expression that can be subsequently treated by matrix mathematics and suitable numerical methods for solving matrix problems.
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Status and future of the 3D MAFIA group of codes
Micha Dehler,Martin Dohlus,Alice Fischerauer,Gerhard Fischerauer,Peter Hahne,Reinhard Klatt,Frank L. Krawczyk,Thomas Pröpper,Petra Schütt,Thomas Weiland,F. Ebeling,Michaela Marx,S.G. Wipf,B. Steffen,T. Barts,J. Browman,R.K. Cooper,G. Rodenz,D. Rusthoi +18 more
TL;DR: The MAFIA group of fully three-dimensional computer codes for solving Maxwell's equations by the finite integration algorithm is presented in this article, which includes a static solver that calculates 3-D magnetostatic and electrostatic field and a self-consistent version of TBCI that solves the field equations and the equations of motion in parallel.
A proposed superconducting photoemission source of high brightness
H. Chaloupka,H. Heinrichs,A. Michalke,H. Piel,C.K. Sinclair,F. Ebeling,Thomas Weiland,U. Klein,Helmut Vogel +8 more
TL;DR: In this article, the authors describe the design of an electron injector for the production of a bunched cw electron beam of high brightness, low energy spread, and potentially high beam power.
The 3-D MAFIA group of electromagnetic codes
F. Ebeling,Reinhard Klatt,Frank L. Krawczyk,E. Lawinsky,Thomas Weiland,S.G. Wipf,B. Steffen,T. Barts,M.J. Browman,R.K. Cooper,H. Deaven,G. Rodenz +11 more
TL;DR: The authors describe the mathematical approach taken by the MAFIA codes for the solution of Maxwell's equations in the time and frequency domains in three dimensions.
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