Self-Consistent Klystron Simulations

Self-Consistent Klystron Simulations

A numerical analysis of large-signal klystron behavior based on general wave-particle interaction theory is presented. The computer code presented is tailored for the minimum amount of complexity needed in klystron simulation. The code includes self-consistent electron motion, space-charge fields, a...

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Veröffentlicht in:IEEE transactions on nuclear science 1985-10, Vol.32 (5), p.2837-2839
Hauptverfasser: Carlsten, B. E., Tallerico, P. J.
Format: Artikel
Sprache:eng
Schlagworte:
420800 - Engineering- Electronic Circuits & Devices- (-1989)
430303 - Particle Accelerators- Experimental Facilities & Equipment
Computational modeling
COMPUTERIZED SIMULATION
DATA
EFFICIENCY
ELECTRIC FIELDS
Electron beams
ELECTRON TUBES
ELECTRONIC EQUIPMENT
ENGINEERING
Impedance
INFORMATION
KLYSTRONS
Laboratories
MAGNETIC FIELDS
Microwave devices
MICROWAVE EQUIPMENT
MICROWAVE TUBES
Numerical analysis
NUMERICAL DATA
Optical modulation
PARTICLE ACCELERATORS
Physics
POWER
SIMULATION
SPACE CHARGE
THEORETICAL DATA
Voltage
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Beschreibung
Zusammenfassung:A numerical analysis of large-signal klystron behavior based on general wave-particle interaction theory is presented. The computer code presented is tailored for the minimum amount of complexity needed in klystron simulation. The code includes self-consistent electron motion, space-charge fields, and intermediate and output fields. It also includes use of time periodicity to simplify the problem, accurate representation of the space-charge fields, accurate representation of the cavity standing-wave fields, and a sophisticated particle-pushing routine. In the paper, examples are given that show the effects of cavity detunings, of varying the magnetic field profile, of electron beam asymmetries from the gun, and of variations in external load impedance.
ISSN:0018-9499
1558-1578
DOI:10.1109/TNS.1985.4334198