1) frequency-plane
频面
1.
Image coding based on frequency-plane and embedded zerotree wavelet;
基于频面与嵌入零树小波的图像编码算法
2) iso-frequency surface
等频面
1.
The light-path bending phenomenon in filling-factor graded wavelike two-dimensional(2D) photonic crystals(PC) is due to the gradual modifications of the band structure and iso-frequency surface.
填充率渐变引起的能带结构和等频面结构的变化是填充率渐变型波状结构二维(2D)光子晶体(PC)产生光路转弯现象的根本原因,由于TM模和TE模在能带结构上存在差异,光路转弯现象就具有明显的偏振选择特性,能够实现归一化频率a/λ为0。
3) equal frequency surface
等频面
1.
The necessary conditions of all-angle polarization beam splitting effect of photonic crystal is discussed from the aspects of band structure and equal frequency surface.
从能带结构和等频面两方面完整阐述了利用光子晶体实现全角度偏振分束的条件,分析等频面目的在于确保波矢的切向分量保持连续,采用时域有限差分(FDTD)方法模拟了高斯光束在波状膜层中的传播过程,通过对比TE模与TM模在0°—89°不同入射角情况下的振幅透射系数,理论上验证了波状膜层的全角度偏振分束效应。
4) surface wave dispersion
面波频散
1.
According to the results of the deep seismic sounding and surface wave dispersion tomography, a two-dimensional model is used to do the match in the interpretation.
解释时根据深地震测深和面波频散层析成像的结果,用二维模型进行正演拟合。
2.
A lot of numerical simulations indicate that both SVD and LSQRD are very effectively applied to inversion of surface wave dispersion.
大量的数值模拟表明 ,SVD和 LSQRD在面波频散网格反演两步法中的应用效果都很好。
5) Desktop Video
桌面视频
1.
Realization of Desktop Video Broadcasting Based on Bitmap;
基于位图的桌面视频广播的实现
6) high frequency band-plane
高频带面
补充资料:不看金面看佛面
1.同"不看僧面看佛面"。
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