反向隔离
- 网络reverse isolation
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提高光学隔离器/环行器的反向隔离比方法
A new method of raising the backward loss of an optical isolator / circulator
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1.3μm光学环行器正向损耗及反向隔离比的理论及实验研究
Theoretical and experimental study of isolation and insertion loss of a 1.3 μ m optical circulator
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在理论及实验上分析了影响光环行器插入损耗及反向隔离比的因素,讨论了环行器中起、检偏镜参数对其性能的影响。
In this paper the factors which influence the isolation and the insertion loss of optical circulator are discussed .
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结果表明,隔离器的反向隔离比在原来的基础上提高了将近一倍,而正向插入损耗增加得很少。
Theoretical and experimental results indicate that the isolation is nearly two times greater than before , and the insertion loss just increases a little .
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与普通的金属环形电极相比,等离子体电极可在晶体内形成均匀的电场分布,可使电光开关定标到任意口径与形状,能有效解决激光聚变驱动器中光束控制和反向激光隔离等问题。
Contrasted with external ring electrodes , plasma electrodes make more uniform electric field distribution in the crystal , so that electro-optical switch can be scaled arbitrary apertures and shapes .
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圆起偏器及其对反向光的隔离性能分析
Analysis of Polarization of a Circular Polarizer and the Isolation Performance for the Reflected Light