| 1. | Design of start part of slow wave structure in relativistic backward wave oscillator
相对论返波管慢波结构的起始端设计 |
| 2. | Particle simulation of compact l - band coaxial relativistic backward wave oscillator
波段同轴相对论返波振荡器的粒子模拟 |
| 3. | Backward wave oscillator tube
返波振荡管 |
| 4. | Backward wave oscillator
反向波振荡器 |
| 5. | Backward wave oscillators with coaxial structure : dispersion characteristics and pic simulation
同轴波纹返波管色散特性研究及粒子模拟 |
| 6. | Optimization and simulation of a relativistic backward wave oscillator with a slow wave structure
相对论返波管慢波结构的优化设计和数值模拟 |
| 7. | Experimental study of backward wave oscillator with resonant reflector operating at low magnetic field
带谐振腔反射器的低磁场返波管实验研究 |
| 8. | Employing the self - consistent nonlinear theory , the wave beam interaction and the wave developing with time in the subnanosecond millimeter relativistic backward wave oscillator were theoretically analysised
本论文采用自洽非线性理论,理论分析了相对论返波振荡器中注波互作用及亚纳秒电子束与波在微波器件中随时间的演变过程。 |
| 9. | Subnanosecond millimeter relativistic backward wave oscillator , based on superradiance mechanism , was a novelty microwave device developed in last few years . the dependence of peak power on the square of the density of electron beam is almost linear
基于超辐射机理的亚纳秒毫米波微波器件是近几年发展起来的一种新型微波器件,其辐射功率与参与束波互作用的电子束密度的平方成正比关系。 |
| 10. | Using the particle - in - cell ( pic ) model , a 8 millimeter relativistic backward wave oscillator underlying superradiance mechanism was gotten , the influence on both operation frequency and radiation efficiency of the guiding magnetic field , the diode voltage , the beam current and the beam radius as well as the corrugation structure were also presented
采用pic方法,通过数值模拟优化设计了超辐射状态下的8毫米相对论返波振荡器,分析了引导磁场、二极管电压、电子束流、电子束半径、周期慢波结构等对器件的辐射功率及辐射效率的影响。 |
