Quasi-Optical Control of Intense Microwave Transmission

MEASUREMENT OF NEAR-MEGAWATT MILLIMETER-WAVE BEAMS.- OVERSIZED TRANSMISSION LINES FOR GYROTRON-BASED TECHNOLOGICAL OVENS AND PLASMA-CHEMICAL REACTORS.- DEVELOPMENT OF LUMPED AND DISTRIBUTED MODELS FOR ACCURATE MEASUREMENTS OF Q-FACTORS OF QUASIOPTICAL RESONATORS.- THE MODE-MATCHING TECHNIQUE AND FAST NUMERICAL MODELS OF ARBITRARY COORDINATE WAVEGUIDE OBJECTS.- ELECTRIC FIELD INTEGRAL EQUATION ANALYSIS AND ADVANCED OPTIMIZATION OF QUASI-OPTICAL LAUNCHERS USED IN HIGH POWER GYROTRONS.- COMPARISON OF TWO OPTIMIZATION CRITERIA FOR QUASI-OPTICAL POWER TRANSMISSION LINES.- A GENERAL PURPOSE ELECTROMAGNETIC CODE FOR DESIGNING MICROWAVE COMPONENTS.- AMPLIFICATION AND GENERATION OF HIGHPOWER MICROWAVE BY RELATIVISTIC ELECTRON BEAMS IN SECTIONED SYSTEMS.- MICROWAVE DEVICES WITH HELICALLY CORRUGATED WAVEGUIDES.- QUASI-OPTICAL TRANSMISSION LINES ATCIEMAT AND AT GPI.- SUPERRADIANCE OF INTENSE ELECTRON BUNCHES.- TRANSMISSION LINE COMPONENTS FOR A FUTURE MILLIMETER-WAVE HIGHGRADIENT LINEAR ACCELERATOR.- FERRITE PHASE SHIFTERS FOR Ka BAND ARRAY ANTENNAS.- PROPAGATION OF WAVE TRAINS OF FINITE EXTENT ON WIDE, THIN-WALLED ELECTRON BEAMS.- QUASI-OPTICAL MULTIPLEXERS FOR SPACE COMMUNICATION AND RADAR WITH SYNTHESIZED FREQUENCY BAND.- ACTIVE COMPRESSION OF RF PULSES.- CONTROL OF INTENSE MILLIMETER WAVE PROPAGATION BY TAILORING THE DISPERSIVE PROPERTIES OF THE MEDIUM.- HIGH-POWER MILLIMETREWAVE TRANSMISSION SYSTEMS AND COMPONENTS FOR ELECTRON CYCLOTRON HEATING OF FUSION PLASMAS.- SPACE-FREQUENCY MODEL OF ULTRA WIDEBAND INTERACTIONS IN MILLIMETER WAVE MASERS.- BI-STATIC FORWARD-SCATTER RADAR WITH SPACE-BASED TRANSMITTER.- ANALYSIS OF NANOSECOND GIGAWATT RADAR.- HIGH POWER MICROWAVE SPECTROSCOPY.- A MULTIPACTOR THRESHOLD IN WAVEGUIDES: THEORY AND EXPERIMENT.- QUASI-OPTICAL MODE CONVERTERS IN ADVANCED HIGH-POWER GYROTRONS FOR NUCLEAR FUSION PLASMA HEATING.- RADAR AND COMMUNICATION SYSTEMS: SOME TRENDS OF DEVELOPMENT.- ON ANTENNA SYSTEMS FOR SPACE APPLICATIONS.- INTENSE MICROWAVE PULSE TRANSMISSION THROUGH ELECTRICALLY CONTROLLED FERRITE PHASE SHIFTERS.