来自脉冲星的射电辐射在传播过程中会与星际间介质中的自由电子相互作用,发生色散现象。
Pulssar signal will be scattered as it passes through the Interstellar medium, what is called dispersion.
藉由实验量测到的眼图,我们可以评估光载波经过电光调变器,所产生的群速色散与系统被极化色散现象影响的程度。
The differential group delay (DGD) of the output light which passes through the E-O modulator PMD is estimated and verified by the experimental data.
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。
There is an important meaning that studying the dispersive and nonlinear phenomena of photonic crystals for the fabrication and integration of optical apparatuses.
实验研究了超强超短飞秒激光脉冲在经过块状介质后的光谱展宽和色散补偿压缩现象。
The pulse spectrum broadening and dispersion compensation compression phenomenon when focusing the laser pulse into bulk media are experimentally investigated.
这种现象给人以高贵的感觉,另外通过色散可将白光变成彩色光带,可实现非色素显色。
This kind of phenomenon can give people noble feeling, otherwise through the dispersiveness can turn the white light into colored band of light, which may realize the non - pigment coloration.
利用双折射光纤中孤子自捕获现象可以抑制偏振模色散,但这种抑制技术对传输参量有严格的限制。
It is proposed a new method to suppress PMD in birefringent optical fibers due to the limit of PMD compensation by use of soliton self trapping phenomenon.
本论文研究了二维光子晶体中的色散和非线性现象。
In this paper, we study the dispersive and nonlinear phenomena of 2d photonic crystals.
对观察到的正色散腔被动锁模掺铒光纤激光器的实验现象进行了理论分析。
The experimental results observed in passively mode-locked Er-doped fiber laser with positive dispersion are analyzed theoretically.
较差的会有色散、褪色现象。
Than bad meeting, it is colored and scattered, the phenomenon that fades.
由于交叉相位调制与偏振模色散相互作用的平衡,导致了一些诸如孤子自捕获、呼吸子对的现象出现。
Due to the balance of XPM and PMD. Some phenomena appear such as soliton self-trapping and a breather pair.
金属薄膜的色散特性是产生表面等离子体谐振现象的重要条件之一。
The dispersion characteristics of the metallic thin film is one of the essential factors for generating surface plasmon resonance.
金属薄膜的色散特性是产生表面等离子体谐振现象的重要条件之一。
The dispersion characteristics of the metallic thin film is one of the essential factors for generating surface plasmon resonance.
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