Nat. Key Lab. of Sci. & Technol. on Vacuum Electron. Beijing Vacuum Electron. Res. Inst. Beijing China;
millimetre wave devices; particle beam bunching; slow wave structures; waveguides; MTSS code; W-band continuous wave TWT; W-band folded waveguide circuit; W-band folded waveguide travelling wave tubes; bandwidth 10 GHz; coupled cavity TWT; current 75 mA; efficiency enhancement method; electron beams; electron bunching; folded waveguide slow wave structure; helix TWT; high attenuation factor; negative ph ase velocity tapering; phase velocity tapering; power 50 W; prototype tube; pulsed folded waveguide; size 140 mm; tapered circuit design; voltage 16 kV; Bandwidth; Cavity resonators; Electron beams; Electron tubes; Integrated circuit modeling; Power generation; Vacuum technology;
机译:使用相位速度锥度设计高增益和高效W波段折叠波导TWT
机译:新型W波段脊加载折叠波导行波管
机译:椭圆形薄电子束W波段折叠波导行波管的研究
机译:W波段折叠波导行波管的相速锥形设计效能增强
机译:非均匀波导中的模式耦合以及波导锥度和模式转换器的优化设计。
机译:双曲余弦波导锥度和超大矩形波导可减少W波段电子顺磁共振波谱中的宽带插入损耗。二。宽带表征
机译:双曲余弦波导锥度和超大矩形波导,可减少W波段电子顺磁共振波谱中的宽带插入损耗