本文研究了半导体掺杂复合材料微结构的各向异性对材料的光学非线性增强的影响。
The effect of anisotropic microstructure of semiconductor composites on the optical nonlinearity enhancement is investigated.
荧光强度与激发光强度的三次方关系表明,有效的荧光产生起源于三阶非线性光学效应的增强。
The intensity dependence of integrated luminescence on pump power shows that this is a third-order nonlinear optical effect.
这些纳米粒子呈现的等离子体激元震荡导致玻璃的非线性光学性质增强,因此离子注入的玻璃可以应用于全光学开关器件。
These nanoparticles exhibit plasmon resonance, which enhance the nonlinear optical properties of the glass, so that the implanted glass may be used for all_optical switching devices.
结果表明,复合材料微结构的各向异性能够使得整体复合材料的非线性光学增强达1 ~2个量级。
The results indicate that the optical nonlinearity of bulk material may be enhanced by 1 ~ 2 orders of magnitude through anisotropic microstructure.
双光子共振增强了碱金属原子的非线性极化率,可以观测到多种非线性光学过程产生的非线性光谱。
The nonlinear spectroscopy created by many kind of optical processes are observed while two-photon resonance enhanced the atomic nonlinear susceptibility.
电子共振增强有利于提高三阶非线性光学系数。
It was confirmed that the resonant of electron could enhance the third-order nonlinear optical coefficient greatly.
研究表明,通过优化双卟啉二聚体分子偶极取向和偶极耦合增强的效应可以提高二阶非线性光学性能。
It can be improving second-order nonlinear optical properties by optimization of porphyrin dimer dipole orientation and dipole coupling effect.
这些纳米粒子呈现等离子激元振荡,增强了玻璃的非线性光学性质,因此离子注入玻璃在制造全光学开关器上可起重要作用。
These nanoparticles exhibit plasmon resonance which enhance the non-linear optical properties of glass, so that implanted glass may play an important role for production of all-optical sw...
这些纳米粒子呈现等离子激元振荡,增强了玻璃的非线性光学性质,因此离子注入玻璃在制造全光学开关器上可起重要作用。
These nanoparticles exhibit plasmon resonance which enhance the non-linear optical properties of glass, so that implanted glass may play an important role for production of all-optical sw...
应用推荐