The beam-wave interaction in THz wave EIO has been studied.
太赫兹波EIO的注-波互作用理论研究。
A high energy pulsed terahertz (THz) laser is studied experimentally.
本文对高能量脉冲太赫兹激光器进行了实验研究。
Two-dimensional metallic photonic crystal in THz range was constructed.
构造了一种适用于太赫兹器件的二维金属光子晶体结构。
Terahertz (THz) wave and its unique properties were briefly introduced.
简要介绍了太赫兹波的产生、探测方法和主要特点。
Atmospheric Windows for THz waves are important frequency bands for future devices.
而大气窗口是未来器件制作应重点考虑的波段。
The lid of model THZ use whole glass frame so as to observe the goods in the chamber easily.
THZ型箱盖采用全玻璃框架结构,观察工作室内物体,一目了然。
The broadband THz reflection spectra of L-lysine (C6H14N2O2) and L-arginine (C6H14N4O2) are obtained.
通过实验测量了赖氨酸(C6H14N2O2)和精氨酸(C6H14N4O2)的太赫兹反射式宽带谱。
Hence, the interaction of THz photon with the living biomolecule system can lead to the resonance effect.
因此,太赫兹光子是能够与活的生物分子系统发生相互作用的,并产生相应的共振吸收效应。
The biased electrical field and magnetic field can enhance optically induced THz electromagnetic radiation.
说明了外加电场和磁场对太赫兹电磁辐射的产生具有增强作用。
The standards and protocols demanded by the evolving technologies of THz communications will also be discussed.
的标准和协议所要求的讨论不断变化的技术太赫兹通信也。
As its reciprocal process, in theory, it should be possible to use air as the sensor to detect pulsed THz waves.
理论上,作为太赫兹波产生的逆过程,有可能实现用空气作为介质探测脉冲太赫兹波。
This way can be used to improve the power and SNR of THz radiation. The result was proved by Monte Carlo simulation.
最后使用了蒙特卡罗方法模拟了这一过程,并验证了这一方法的可行性。
The culture facility will be used to grow skin cancer cells and the THz radiation will target the source of the cancer.
该培养仪将被用于培养皮肤癌细胞并且超强的辐射将靶向癌症源。
Several methods and theory of THz imaging as well as late results of the researchers in Russia and Korea are introduced.
主要介绍了几种自由电子激光器进行太赫兹成像的原理和方法,并给出了俄罗斯和韩国等研究人员最近一两年的实验结果。
The structure and vibrational frequencies of Ractopamine molecule in the THz range were simulated by density functional theory.
采用密度泛函理论对莱克多巴胺分子的结构和振动频率进行了模拟。
The work has a certain reference to improve the THz radiation power from photoconductive antenna and the design of antenna structure.
该工作对提高光电导天线辐射太赫兹波的功率和天线的设计具有一定的借鉴意义。
This will be the first time THz technology has been used on cancer cells and it will also be developed to characterise genetic material.
这将是超强辐射技术首次被用于杀死癌细胞而且以后还会用它来展示遗传物质的特性。
Terahertz (THz) wave, electromagnetic radiation between far infrared and millimeter wave, has very important academic and application value.
太赫兹波是介于远红外与毫米波之间的一种电磁辐射,有非常重要的学术和应用价值。
We design a THz photonic crystal fiber and a THz porous fiber and investigate the evanescent wave sensing properties of the two THz waveguide.
设计了一种太赫兹波光子晶体光纤结构和太赫兹波多孔光纤结构,研究了两种太赫兹波导倏逝波传感的特性。
At high photoexcitation, emitted THz wave shows the obvious azimuthal Angle dependence superimposed with a strong angle-independent component.
在高能量雷射的激发之下,放射出的兆赫波显示出与方位角有关的分量叠加于与方位角无关的分量上。
Comparing the spectrums of IR and THz, it was found that the two kinds of spectroscopy are consistent in revealing the molecular vibrational mode.
比较两种光谱技术得到的实验结果发现,两种光谱技术在反映分子振动模式上所得的结果是一致的。
The terahertz (THz) spectra of nicotinic acid, nicotinamide and nicotine were studied at room temperature. The time-domain THz spectra were measured.
研究了室温条件下结构相似的烟酸和烟酰胺以及烟碱的太赫兹光谱。
This paper presents the absorption spectra of carbon monoxide measured by terahertz time-domain spectroscopy in the frequency range between 0. 2 and 2. 5 THz.
文章首次利用太赫兹时域光谱技术测量了一氧化碳气体在0.2~2.5太赫兹频谱范围内的吸收光谱。
The talk will describe measurement techniques in THz spectroscopy and imaging and related calibration methods for frequency, amplitude, resolution and dynamic range.
讲座将介绍在太赫兹光谱和成像和频率,振幅,分辨率和动态范围测量技术相关的校准方法。
The results show that THz emission spectra are enhanced by the applied electrical and magnetic field, while their frequency components and bandwidths are not changed.
实验表明,太赫兹时域发射光谱和频谱在外加电场、磁场作用下都有增强,但是所发射的频率成分和带宽都没有改变。
At the same time, we theoretically analyze and numerically simulate the transmission properties of THz radiation pulses through very deep zero-order metallic gratings.
同时对零级深度金属光栅对太赫兹波透过特性进行了详细的理论推导和数值模拟。
The results indicate that it is feasible to apply THz-TDS technique to identification of Hotan jade, which provides a new approach to the nondestructive examination of Hotan jade.
实验结果初步说明, 通过太赫兹波段的吸收谱和折射率的特征差异与种类之间的关系判断和田玉的种类是可行的,为无损和田玉种类鉴别提供一种新型的方法。
The results indicate that it is feasible to apply THz-TDS technique to identification of Hotan jade, which provides a new approach to the nondestructive examination of Hotan jade.
实验结果初步说明, 通过太赫兹波段的吸收谱和折射率的特征差异与种类之间的关系判断和田玉的种类是可行的,为无损和田玉种类鉴别提供一种新型的方法。
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