Sub-wavelength 亚波长
sub-wavelength grating 次波长光栅
sub wavelength gratings 亚波长光栅
sub-wavelength gratings 亚波长光栅
sub-wavelength condition 亚波长条件
sub-wavelength structure 亚波长结构
sub wavelength resolution 次波长分辨率
This dissertation is about the rigorous vector analysis and design of subwavelength diffractive microlenes.
本论文围绕亚波长衍射微透镜的严格矢量分析与设计展开。
参考来源 - 亚波长衍射微透镜的严格矢量分析Diffractive optical elements with subwavelength grating structures have been a subject of great interest in binary optics for many years.
具有亚波长光栅结构的衍射光学元件一直以来都是二元光学领域的一个研究热点。
参考来源 - 亚波长光学元件的特性及应用研究It is a very important use of left-handed materials. The original reason that LHM can realize subwavelength resolution is which can amplify evanescent wave.
左手物质一个非常重要的可能用途是制造完美透镜,而左手物质能实现次波长成像的根本原因就在于左手物质可以对消逝波进行放大。
参考来源 - 含左手物质的一维光子晶体的若干特性·2,447,543篇论文数据,部分数据来源于NoteExpress
Its size was effectively decreased by a sub wavelength resonance cavity.
以异性材料为基底的亚波长谐振腔结构有效降低了天线体积。
An approximate equivalent coefficient for two-dimensional sub wavelength was obtained with the related expressions of grating structure.
构造了一种分析方法,然后利用光栅结构的有关表达式得到这种二维结构的近似等效系数。
In particular the introduction of sub-wavelength structures, the microstrip circuit has presented unprecedented features, such as slow-wave characteristics, left-handed properties and so on.
特别是亚波长结构的引入,使微带电路呈现出了前所未有的特性,如慢波特性、左手特性等。
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