negative dispersion fiber 负色散波导光纤
negative dispersion mirror 负色散反射镜
negative dispersion mirrors 光学薄膜
Broadband negative dispersion 宽带负色散
fiber of negative dispersion 负色散光纤
negative dispersion optical fiber 负色散光纤
negative dispersion without absorption 无吸收负色散
These three frequencies are determined by the resonance transition frequencies between dressed states produced by the strongdriving field. Second, negative dispersion without absorption, which leads to superluminal light propagation, is achievable in the central resonance structure of the dispersion spectrum.
其次,在色散光谱的中心区域,呈现出无吸收负色散,这种效应能够导致超光速传播,但它随着修饰态间距增加而减弱。
参考来源 - 电磁诱导透明和折射率增强的研究·2,447,543篇论文数据,部分数据来源于NoteExpress
Two kinds of the negative dispersion mirrors (NDM1 and NDM2) with good performance were designed in this paper.
根据钛宝石激光器的要求设计了性能优良的两种负色散镜(NDM1和NDM2)。
From our analysis, we know that PSA can compensate fiber dispersion, either positive dispersion or negative dispersion.
通过分析可知,PS A对光纤的正色散和负色散都有一定的补偿效果。
In Chapter 2 , the principle of negative dispersion mirrors including chirped mirrors and Gires-Tournois interferometer mirrors was described.
第二章介绍了啁啾镜和吉莱-图努瓦干涉反射镜等负色散镜的原理。
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