| 1. | A novel bwo with photonic band gap structure
具有光子晶体带隙结构的返波振荡器的初步研究 |
| 2. | Particle simulation of rbwo filled with neutral gas
充中性气体相对论返波振荡器的粒子模拟研究 |
| 3. | 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 |
| 4. | Research on x - band inner coaxial disk - loaded relativistic backward - wave oscillator
波段内同轴膜片加载相对论返波振荡器的特性研究 |
| 5. | First , the present thesis gives theoretical investigations on the coaxial bwo using the linear fluid model
首先,本论文采用线性理论模型研究了同轴相对论返波振荡器的相互作用过程。 |
| 6. | The results show that the radius of the slow - wave structure can be much smaller in the coaxial bwo case than in the non - coaxial bwo case
结果表明:采用同轴慢波结构实现l波段返波振荡器的微波输出,可以大大减小微波器件的径向尺寸。 |
| 7. | Secondly , based on the theoretical investigations , a coaxial bwo is designed which operates in the frequency regime of l - band . and its interaction process is analyzed
其次,利用线性理论分析结果,我们给出了一个l波段同轴相对论返波振荡器的物理模型,并从理论上分析了其束波相互作用的物理过程。 |
| 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. | The backward - wave oscillator ( bwo ) is one of the promising devices that can produce high - power microwaves and is intensively investigated because of its merits such as compact structure , high efficiency and good stability
相对论返波振荡器是有发展前途的高功率微波源之一,具有电磁结构紧凑、效率高和运行稳定等特点,在国际上受到广泛重视。 |
| 10. | It is paid attention to that the longitudinal component of electric field of the coaxial tm01 mode can be strong , differing from the tem mode in the conventional coaxial waveguide . so the coaxial tm01 mode can have much strong interaction with the electron beam
值得注意的是,与普通同轴结构tem波不同,同轴慢波结构tm01模式的纵向电场不为零,这是同轴返波振荡器中的电子束能够与它有强相互作用的重要原因。 |
