There is an important meaning that studying the dispersive and nonlinear phenomena of photonic crystals for the fabrication and integration of optical apparatuses.
基于光子晶体中色散和非线性现象的研究使光器件的小型化成为可能,这对将来实现各种光器件的制作和集成具有重要的意义。
Because of efficient concentration of light power, many nonlinear surface optical phenomena will be significantly enhanced.
由于表面波可以有效地聚集光能量,这导致很多非线性表面光学现象被显著的提高。
As a special kind of transparent material, nonlinear optical crystal may induce some more phenomena when femtosecond laser pulse propagate in it because of its peculiar structure.
作为一类特殊的透明介质,非线性光学晶体因其具有不同于各向同性介质的结构,因而在与飞秒光脉冲相互作用时,可能会产生很多新的物理现象。
The optical nonlinear phenomena could be observed obviously around the absorption peak, due to the surface plasmon resonance.
玻璃中的金属纳米粒子由于其表面等离子共振,在特征峰附近会出现明显的光学非线性现象。
Supercontinuum is such an optical phenomena that when ultrashort pulses propagating in nonlinear media, its optical spectrum becomes very broad, much wider than that of the original spectrum.
超连续谱产生现象是指超短脉冲在介质中传输时由于介质的非线性效应导致脉冲的谱被极大地加宽,透视谱中产生了很多新的频率成分。
Supercontinuum is such an optical phenomena that when ultrashort pulses propagating in nonlinear media, its optical spectrum becomes very broad, much wider than that of the original spectrum.
超连续谱产生现象是指超短脉冲在介质中传输时由于介质的非线性效应导致脉冲的谱被极大地加宽,透视谱中产生了很多新的频率成分。
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