Virtual Prototyping of Directed Energy Weapons

Author

Bettencourt, M.T. ; Amdahl, D.J. ; Bowers, L.A. ; Cartwright, KL ; Greenwood, A.D. ; Fleming, T.P. ; Haworth, M.D. ; Lockwood, N.P. ; Mardahl, P.J. ; Peterkin, R.E., Jr. ; Luginsland, J.W. ; Watrous, J.J.

Author_Institution

US Air Force Res. Lab., Kirtland, NM

fYear

2006

fDate

26-29 June 2006

Firstpage

252

Lastpage

258

Abstract

This paper gives an overview of how RF systems, from pulsed power to antennas, may be virtually prototyped with the improved concurrent electromagnetic particle-in-cell (ICEPIC) 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

magnetrons; microwave generation; military computing; virtual prototyping; weapons; Lorenz force law; Maxwell equations; RF systems; charged particle dynamics; directed energy weapons; electrodynamics; improved concurrent electromagnetic particle-in-cell code; relativistic magnetron; virtual prototyping; Computational modeling; EMP radiation effects; Electromagnetic forces; Electromagnetic radiation; Laboratories; Maxwell equations; Microwave devices; Radio frequency; Virtual prototyping; Weapons;

fLanguage

English

Publisher

ieee

Conference_Titel

HPCMP Users Group Conference, 2006

Conference_Location

Denver, CO

Print_ISBN

0-7695-2797-3

Type

conf

DOI

10.1109/HPCMP-UGC.2006.75

Filename

4134062