Title :
Virtual prototyping of directed energy weapons
Author :
Cartwright, K.L. ; Bowers, L.A. ; Greenwood, A.D. ; Fichtl, C.A. ; Haworth, M.D. ; Kozak, M. ; Mardahl, P.J. ; Murphy, T. ; Peterkin, R.E., Jr. ; Schulz, A.E. ; Swift, R.D. ; Luginsland, J.W. ; Watrous, J.J.
Author_Institution :
Air Force Res. Lab., Kirtland AFB, NM, USA
Abstract :
We give an overview of how RF systems, from pulsed power to antennas, can be virtually prototyped with the ICEPIC (Improved Concurrent Electromagnetic Particle-in-Cell) code. ICEPIC simulates from first principles (Maxwell´s equations and Lorenz´s force law) the electrodynamics and charged particle dynamics of the RF-producing part of the system. Our simulations focus on gigawatt-class sources; the relativistic magnetron is shown as an example. Such simulations require enormous computational resources. These simulations successfully expose undesirable features of these sources and help us to suggest improvements.
Keywords :
Maxwell equations; computational electromagnetics; electrodynamics; microwave devices; military computing; virtual prototyping; weapons; ICEPIC code; Improved Concurrent Electromagnetic Particle-in-Cell code; Lorenz force law; Maxwell equation; RF system; charged particle dynamics; digital simulation; directed energy weapons; electrodynamics; gigawatt-class source; virtual prototyping; Computational modeling; EMP radiation effects; Electrodynamics; Electromagnetic forces; Electromagnetic radiation; Laboratories; Masers; Maxwell equations; Virtual prototyping; Weapons;
Conference_Titel :
User Group Conference, 2003. Proceedings
Print_ISBN :
0-7695-1953-9
DOI :
10.1109/DODUGC.2003.1253378
