Title :
A code for analysis and optimization of resonator slow wave systems with selective absorbers
Author :
Grigoriev, A.D. ; Niconov, D.Yu.
Author_Institution :
Saint-Petersburg State Electr. Eng. Univ. "LETI", St. Petersburg, Russia
Abstract :
An algorithm for analysis and optimization of coupled cavity chains containing selective absorbers is described. The algorithm is based on the partial regions method and calculates dispersion, interaction impedance and attenuation constants in cavity and slot passbands and neighboring stopbands. Selective absorbers are considered as dielectric resonators excited by the cavity field. The optimization is performed by Monte-Carlo and modified Newton methods. The results of analysis and optimization are presented.
Keywords :
Monte Carlo methods; Newton method; cavity resonators; circuit optimisation; dielectric resonators; dispersion (wave); electromagnetic wave absorption; slow wave structures; waveguide couplers; Monte-Carlo optimization methods; attenuation constant; cavity field excited dielectric resonators; cavity/slot passband dispersion; coupled cavity chains; interaction impedance; modified Newton methods; partial regions method; resonator analysis/optimization algorithm; resonator slow wave systems; selective absorbers; stopbands; Algorithm design and analysis; Attenuation; Dielectrics; Impedance; Newton method; Optimization methods; Passband;
Conference_Titel :
Actual Problems of Electron Devices Engineering, 2002. (APEDE 2002). Fifth International Conference on
Conference_Location :
Saratova, Russia
Print_ISBN :
5-7433-1065-3
DOI :
10.1109/APEDE.2002.1044918
