1) dielectric dispersion
电介质色散
2) dispersive media
色散介质
1.
A general method for finite difference time domain modeling of wave propagation in frequency-dispersive media;
一种处理色散介质问题的通用时域有限差分方法
2.
Wavelet galerkin of time domain method for dispersive media;
色散介质中的时域小波Galerkin方法
3.
A finite difference time domain absorbing boundary condition for general frequency-dispersive media
一种色散介质FDTD通用吸收边界
3) Dispersive medium
色散介质
1.
Research on polaritons in photonic crystal with absorptive type of dispersive medium's layer;
含吸收型色散介质的光子晶体的腔极化激元研究
2.
The normal-mode coupling dispersive medium in a symmetric one-dimension photonic crystals(1D PCs) was studied.
对一维对称光子晶体中的色散介质采用洛仑兹振子模型,通过考虑色散介质层两侧的边界条件,得到了表征色散介质层的转移矩阵。
3.
Then the possibility of larger phase velocity and group velocity than light speed in dispersive medium is discussed.
然后从色散介质中相速度与群速度的关系,讨论了相速度和群速度超光速的可能性。
4) anomalously dispersive media
负色散介质
1.
By applying the propagation formula of partially coherent Gaussian-Schell model(GSM) beam in media which was derived by the partially coherent theory and tensor method,the spectrum properties of partially coherent GSM beam in anomalously dispersive media is analyzed.
文章利用由部分相干光理论及张量方法推导出的部分相干高斯—谢尔模(GSM)光束在介质中的传输公式,计算分析了部分相干GSM光束在负色散介质中的演化特性。
6) absorbing and dispersive dielectrics
色散吸收介质
1.
The photic field in the plane divisional uniform absorbing and dispersive dielectrics is quantized by the canonical quantum theory and the classical Green s function of the system.
借助系统经典格林函数 ,运用正则量子化方法 ,对平面分区均匀色散吸收介质中电磁场进行量子化。
2.
The electromagnetic field is quantized in absorbing and dispersive dielectrics by the canonical quantum theory and classical Green s function of the system, then, the influence of the loading on the quantum character of absorbing and dispersive cavity is investigated.
利用系统经典格林函数和正则量子理论,对色散吸收介质中电磁场量子化;借此着重研究加载对色散吸收 介质光腔系统量子性质的影响。
补充资料:波长色散X射线荧光光谱法
分子式:
CAS号:
性质: X射线照射试样激发产生各种波长的光,通过晶体衍射进行空间色散,分别测量不同波长的X射线分析线峰值强度,进行定性和定量分析的方法。适用于原子序数4(铍)以上所有化学元素的分析。
CAS号:
性质: X射线照射试样激发产生各种波长的光,通过晶体衍射进行空间色散,分别测量不同波长的X射线分析线峰值强度,进行定性和定量分析的方法。适用于原子序数4(铍)以上所有化学元素的分析。
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