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Title: Analytic solution for the problem of gridded gap-electron flow interaction

Technical Report ·
DOI:https://doi.org/10.2172/5081671· OSTI ID:5081671
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The present study is motivated by the modelling of high-power klystrons. The two basic components of a Klystron are the resonant cavities and the drift spaces. This paper addresses only the first of these two components. Modelling of the drift spaces is deferred to future work. The formulation is not restricted to Klystron modelling, but is applicable to any problem involving the interaction of an electron beam with a resonant cavity. While the theory of Klystrons has been worked out in detail in the small signal limit, the problem remains largely unsolved when the signals are large. In particular, the hydrodynamic models of electron beams used to derive the small signal theories fail when particle trajectories cross each other. In this paper, we employ a Vlasov description of the electron beam to study the Klystron problem. In the Vlasov formulation we follow the evolution of the electron distribution function in phase-space. The general framework can naturally accommodate particle crossing, and the beam dynamics is accurately described even when the signals are large.

Research Organization:
SLAC National Accelerator Lab., Menlo Park, CA (United States)
DOE Contract Number:
AC03-76SF00515
OSTI ID:
5081671
Report Number(s):
SLAC/AP-13; ON: DE84008975
Country of Publication:
United States
Language:
English

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Related Subjects

43 PARTICLE ACCELERATORS
KLYSTRONS
BEAM DYNAMICS
BOLTZMANN-VLASOV EQUATION
CAVITY RESONATORS
ELECTRON BEAMS
HYDRODYNAMIC MODEL
BEAMS
DIFFERENTIAL EQUATIONS
ELECTRON TUBES
ELECTRONIC EQUIPMENT
EQUATIONS
EQUIPMENT
LEPTON BEAMS
MATHEMATICAL MODELS
MICROWAVE EQUIPMENT
MICROWAVE TUBES
PARTIAL DIFFERENTIAL EQUATIONS
PARTICLE BEAMS
PARTICLE MODELS
RESONATORS
STATISTICAL MODELS
THERMODYNAMIC MODEL
430300* - Particle Accelerators- Auxiliaries & Components