The crystals work by manipulating phonons, or vibrational waves that can carry either sound or heat depending on the frequency.
这些晶体通过对声子进行操控来工作;声子是一种振动波,可以携带声音或热量,具体携带什么则取决于其频率的高低【 译者注:声子是晶体点阵振动能的量子 】。
The crystal resonator. A subharmonic of the frequency of quartz crystal. extremely effective for charging and clearing quartz crystals. activates aspects of the auric field.
“水晶共振”次谐波频率的石英水晶。非常有效去充电和清除石英水晶。启动有关灵光场。
The optical characteristics of nonlinear optical crystals, especially several common mid-IR nonlinear crystals have been introduced in the research of nonlinear frequency conversion crystals.
在对非线性变频晶体的研究中,首先介绍了非线性光学晶体的光学特性,详细介绍了几种常用的中红外非线性晶体。
This structure can form a wave-guide in photon crystals and light can propagate in it with different selected frequency in photonic band gap with low loss.
该结构在光子晶体中构成光波导,能使光子禁带中不同的被选择的缺陷态频率的光子以极低的损耗通过。
The principles of laser frequency transformation and the theory of phase matching in nonlinear optic crystals are also discussed. Based on this theory, Angle of phase match is calculated.
在总结激光频率变换的原理和非线性光学晶体的相位匹配理论的基础上,可以根据相位匹配理论进行晶体的相位匹配角的计算。
We present an accurate route, which is suitable for the design of nonlinear optical frequency translator of biaxial crystals, to calculate the effective second-order nonlinear coefficients.
本文介绍计算双轴晶体二阶有效非线性系数的严格理论,适用于双轴晶体非线性光学频率变换器件的设计。
Taking higher frequency branch into account, The interface polaron of one mode behavior ternary mixed crystals was studied.
仅考虑高频分支对极化子的贡献,研究了单模型三元混晶界面极化子的性质。
It will affect the crystals resonant frequency and output amplitude, the general ordered crystal when the supplier will ask you how much the load capacitance.
它会影响到晶振的谐振频率和输出幅度,一般订购晶振时候供货方会问你负载电容是多少。
This technology USES nonlinear optical crystals for the frequency conversion of laser light.
这项技术把非线性的视觉的水晶用于镭射光的频率变换。
The optical frequency shift technology based on photonic crystals is studied.
分析了光子晶体实现光学频率变化的方法。
In high frequency domain, the plasma photonic crystals have photonic band gaps, which is analogous to the conventional photonic crystals.
在高频,等离子体光子晶体则出现类似一般光子晶体的光子带隙特性。
The propagation of acoustic waves in sonic crystals is analyzed by means of acoustic equi-frequency surfaces.
通过波矢空间等频线的方法来分析声子晶体中声波的传播。
Frequency conversation efficiency is special high, because omni-directional can reflect in band gap region of photonic crystals.
由于利用光子晶体的禁带特性,能够对落入光子晶体禁带中的光波实现全反射,故频率转换效率很高。
Frequency conversation efficiency is special high, because omni-directional can reflect in band gap region of photonic crystals.
由于利用光子晶体的禁带特性,能够对落入光子晶体禁带中的光波实现全反射,故频率转换效率很高。
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