FIR has three properties: radiation, deep penetration, and resonance absorption.
区有三个属性:辐射,深渗透,共振吸收。
When living things absorb FIR of 8 to 14 micron wavelength, they experience resonance absorption.
当万物吸收8到14微米波长区,他们经历共振吸收。
In other words, the vibration of atoms and molecules will generate heat and result in resonance absorption.
换句话说,原子和分子的振动会产生共振吸收热量和结果。
The diagnosis is based on the theories of the electron cyclotron maser instability and cyclotron resonance absorption.
该诊断基于电子回旋脉塞不稳定性和回旋共振吸收。
And, the interior of molecules - atoms and atomic structures - experience the resonance absorption of FIR of their same frequency.
而且,内部的分子-原子和原子结构-体验区的同频共振吸收。
If considering the generated and acceleration mechanism of hot electrons, the main acceleration of hot electron comes from resonance absorption.
如果考虑超热电子的产生和加热机制,则占主导地位的加热机制是共振吸收对电子的加热。
The effective temperature of fast electrons is consistent with the temperature scaling of the resonance absorption, which is due to Landau damping or wave breaking.
快电子的有效温度较好地满足共振吸收的温度定标律是由于反射激光加速与共振吸收机制均是通过朗道阻尼或波破对电子进行加速的。
This is a process known as "resonance-absorption to heat-generation" with the aid of FIR.
这是“共振吸收中暑的一代”与已知的FIR援助的过程。
This elevation of molecular energy is known as "resonance and absorption".
这种分子能量海拔被称为“共振吸收”。
They have specific absorption spectra and there are obvious resonance Rayleigh scattering (RRS), second-order scattering (SOS) and frequency-doubling scattering (FDS) spectra.
银纳米微粒具有特定的吸收光谱和明显的共振瑞利散射(RRS)、二级散射(SOS)和倍频散射(FDS)光谱。
Resonance light scattering (RLS), fluorescence and absorption spectra of eosine Y (EY) has been measured to study the difference and relationship between RLS and resonance fluorescence.
研究了曙红Y(EY)的共振散射光谱、荧光光谱和吸收光谱,讨论了共振光散射与共振荧光的区别与联系。
The numerical method for resolving the wave propagation and absorption of the electron cyclotron resonance(ECR) is proposed.
介绍了电子回旋共振(ECR)波的传播与吸收的数值求解方法。
This paper deals with the threshold condition of double resonance parametric oscillation when the absorption coefficient of the signal light is different from that of the idling light.
在信号光和闲置光吸收系数不同的情况下对双谐振参量振荡阈值条件进行了分析。
Electron spin resonance (ESR) spectra and optical absorption spectra in the visible region are determined.
测定了玻璃的顺磁共振谱(esr)和可见吸收光谱。
The spacing of Ir is probably somewhat over estimated since the values of the energy and absorption coefficient of the resonance neutron group, used in the estimation, are not very accurate.
因计算时所用共振中子之能及吸收系数不太准确,估计所得铱之间隔大概过高。
The results show that the Doppler background due to the near resonance of the intermediate level is eliminated and the signal of two-photon transition can be distinguished from saturation absorption.
计算结果表明它能有效地克服中间能级近共振所产生的多普勒背景,并有效地区分单光子饱和吸收讯号和双光子跃迁讯号。
Nuclear magnetic resonance (NMR) imaging, X-ray absorption fine structure (XAFS) analysis, transmission electron microscope (TEM), and photocatalytic property testing were carried out.
利用核磁共振仪、扩展X射线吸收精细结构分析、透射电镜对溶胶中的锐钛矿晶体进行深入分析,并考察了锐钛矿晶体的光催化活性。
An unknown polymer was determined by one-dimension and two-dimension technologies of infrared absorption spectroscopy and nuclear magnetic resonance.
利用红外吸收光谱及核磁共振波谱仪的一维和二维技术对一种未知聚合物试样进行鉴定。
The resonance position of modes is determined by the absorption behaviour of a measurable substance.
所述模式的谐振位置是由被测物质的吸附特性来决定的。
Using the method of OGE, the resonance self-absorption in CO discharge medium has been studied. The dependence of the self-absorption on pressure, componen and temperature has been measured.
采用光电流效应研究了CO放电介质中的共振自吸收,测量了气体压力、组份和温度对自吸收的影响。
The magnetic resonance imaging device effectively reduces the noise by setting sound absorption material and is easily implemented with lower cost.
本发明提供的磁共振成像设备,通过吸声材料的设置,有效地降低了噪声,而且成本低,易于实现。
The optical nonlinear phenomena could be observed obviously around the absorption peak, due to the surface plasmon resonance.
玻璃中的金属纳米粒子由于其表面等离子共振,在特征峰附近会出现明显的光学非线性现象。
The optical nonlinear phenomena could be observed obviously around the absorption peak, due to the surface plasmon resonance.
玻璃中的金属纳米粒子由于其表面等离子共振,在特征峰附近会出现明显的光学非线性现象。
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