Title :
Nonlinear dynamics and chaos in a circuitry model of magnetron
Author :
Li, D. ; Alfadhl, Y. ; Chen, X.
Author_Institution :
Sch. of Electron. Eng. & Comput. Sci., Univ. of London, London
Abstract :
The basic operation principle of microwave oscillators, such as magnetrons, is based on the motion of electrons under a combined influence of electric and magnetic fields. In such process, the DC energy is converted into the RF energy via the interaction process between the electrons and the surrounding electromagnetic field. This nonlinear process provides sufficient conditions in generating rather complicated dynamics, even chaos. In this paper, a circuitry model is utilized to simulate the fundamental operation dynamics of a magnetron by considering its electrical and geometrical characteristics.
Keywords :
chaos; electromagnetic fields; magnetrons; microwave oscillators; nonlinear dynamical systems; DC energy conversion; RF energy; chaos; circuitry model; electric fields; electrical characteristics; electromagnetic field; geometrical characteristics; magnetic fields; magnetron; microwave oscillators; nonlinear dynamics; Chaos; Circuitry Model; Magnetron;
Conference_Titel :
High Power RF Technologies, 2009. IET. Conference on
Conference_Location :
London
Print_ISBN :
978-1-84919-060-2
