Title :
Analytical calculations and comparison with numerical data for annular klystrode
Author :
Kim, Hyoung S. ; Uhm, Han S.
Author_Institution :
KMW Inc, Kyunggi-do, South Korea
fDate :
12/1/2001 12:00:00 AM
Abstract :
The performance of a klystrode is investigated for annular electron beams. Numerical simulations of the output cavity in the klystrode device are carried out by making use of the fully electromagnetic three-dimensional code, HFSS, and the fully electromagnetic, two-and-one-half-dimensional, self-consistent PIC code, MAGIC. In addition, an analytical expression to predict the efficiency and gap-field strength of the device is developed to investigate klystrode performance over a wide range of parameters. This analytical expression for the annular klystrode is developed based on the Maxwell´s equations and Newton´s second law of motion. The analytical results agree fairly well with data obtained numerically from the MAGIC code. The presented results indicate that the theoretical formula obtained from the analytical calculation may be useful for designing the klystrode microwave tubes
Keywords :
Maxwell equations; cavity resonators; electron beams; electron guns; klystrons; microwave generation; microwave tubes; numerical analysis; 6 GHz; HFSS code; MAGIC; MAGIC code; Maxwell´s equations; Newton´s second law of motion; analytical calculation; analytical calculations; analytical expression; annular electron beams; annular klystrode; design; efficiency; fully electromagnetic three-dimensional code; fully electromagnetic two-and-one-half-dimensional self-consistent PIC code; gap-field strength; klystrode; klystrode device; klystrode microwave tubes; klystrode performance; numerical data; numerical simulations; output cavity; performance; Electromagnetic devices; Electromagnetic fields; Electron beams; Kinetic energy; Maxwell equations; Motion analysis; Numerical simulation; Performance analysis; Radio frequency; Voltage;
Journal_Title :
Plasma Science, IEEE Transactions on
