1) incoherent erasure
非相干光擦除
1.
The self-pumped phase conjugation process under incoherent erasure has theoretically been analysed.
本文对BaTiO3:Ce自泵浦相位共轭镜受寄生光的影响其相位共轭主光栅耦合强度的变化进行了数值求解,对非相干光擦除作用下的自泵浦相位共轭过程进行了理论分析,并且从相应的实验证实,用非相干光选择区域擦除能减少和抑制寄生光栅,从而能提高自泵浦相位共轭反射率。
2) incoherent beam
非相干光
1.
Effect of incoherent beam on photorefractive two-wave mixing in Ce∶KNSBN crystal;
非相干光对Ce∶KNSBN晶体两波耦合的影响研究
2.
From BaTiO_3:Ce self-pumped phase conjugator, it is theoretically analysised and experimentally demonstrated that non-negative effect of incoherent beam on the four waive mixing region in photorefractive phase conjugator.
本文以BaTiO3:Ce自泵浦相位共轭镜为例,理论上和实验上对非相干光作用在光折变相位共轭镜的四波混频区产生的非负效应进行探讨和验证。
3.
This result is experimentally achieved by using incoherent beam illumination along the c axis direction of the crystal when a He Ne laser generates steady phase conjugate signal.
对CeBaTiO3晶体的自泵浦相位共轭镜在非相干光作用下自泵浦相位共轭反射率增强的特性进行了研究。
3) incoherent light
非相干光
1.
Measurement of quantum states with incoherent light;
量子态的非相干光时域测量
2.
Detecting the Population relaxation of Organic dye LC700 with the time—delayed degenerate four—wave mixing with incoherent light;
用非相干光时延简并四波混频方法探测有机染料LC700的布居数驰豫
3.
The research for the three-photon correlated imaging with incoherent light(classical thermal light) of lensless Fourier-transform is reported.
首次从理论上提出了利用非相干光场(经典热光场)在无透镜的情况下,得出高阶干涉光的三阶关联函数解析式,并证明了非相干光场通过傅里叶变换,完全能够实现多光子的关联成像。
4) Non coherent light
非相干光
1.
A technique of m aking 2 D rainbow m aster hologram s for em bossing using non coherent light source is described.
描述一种用非相干光制作二维彩虹模压全息图母版的新技术。
5) incoherent optical source
非相干光源
1.
For an SOA with an active region with a wide material gain spectrum,an optimal antireflection coating helps to realize an SOA-based incoherent optical source with a high.
结果表明,不恰当的抗反膜会严重减小输出光谱的带宽;而在采用具有宽带材料增益谱的有源区基础上,结合抗反膜的优化设计,则可以获得既宽又平坦的非相干光源。
6) Incoherent beam
非相干光束
补充资料:相干散射和非相干散射
再辐射的光量子频率和被吸收的光量子频率准确相等的散射过程称为相干散射。在相干散射的情况下,源函数准确地等于平均辐射强度。再辐射的光量子频率和被吸收的光量子频率不相等的散射过程称为非相干散射。在天体物理中,存在一系列因素使散射过程成为非相干散射。主要的因素是:原子的能级有一定的宽度、原子的热运动和湍动以及压力效应等。对于非相干散射,源函数是相当复杂的。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条