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。
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.
其中每一个亚结构可以捕获的太阳光波长范围都不一样,这保证了每个亚结构都可以有效的将光转化为电能。
Each of the subcells can capture a different wavelength range of light, enabling each subcell to efficiently convert that light into electricity.
本论文主要研究亚波长周期结构金属薄膜中的超传输现象和二阶非线性效应。
This thesis mainly shows the research of extraordinary optical transmission and second-harmonic generation from sub-wavelength structured metallic film.
由于热波是一种高衰减波,且波长短,现已成功地实现了对材料亚表面结构的分层成像。
Laminated imaging of the subsurface structures of materials has been successfully realized by this technique because thermal waves are heavily damped and have short wavelengths.
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。
Its size was effectively decreased by a sub wavelength resonance cavity.
我们在本文中提出了基于亚微米准周期极化铌酸锂实现多波长光子禁带的结构。
We demonstrate a quasi-periodic structure exhibiting multiple photonic band gaps (PBGs) based on sub-micron-period poled lithium niobate (LN).
我们在本文中提出了基于亚微米准周期极化铌酸锂实现多波长光子禁带的结构。
We demonstrate a quasi-periodic structure exhibiting multiple photonic band gaps (PBGs) based on sub-micron-period poled lithium niobate (LN).
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