这种分子能量海拔被称为“共振吸收”。
This elevation of molecular energy is known as "resonance and absorption".
区有三个属性:辐射,深渗透,共振吸收。
FIR has three properties: radiation, deep penetration, and resonance absorption.
染料对泵浦光共振吸收后,在液晶中形成热光栅。
Thermal grating was generated after resonant absorption of light by the dye.
我们还研究了相界两侧磁共振吸收线的频率变化。
The frequency shifts of magnetic resonance lines brought about by phase changes are also studied.
该诊断基于电子回旋脉塞不稳定性和回旋共振吸收。
The diagnosis is based on the theories of the electron cyclotron maser instability and cyclotron resonance absorption.
当万物吸收8到14微米波长区,他们经历共振吸收。
When living things absorb FIR of 8 to 14 micron wavelength, they experience 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。
In other words, the vibration of atoms and molecules will generate heat and result in resonance absorption.
这是“共振吸收中暑的一代”与已知的FIR援助的过程。
This is a process known as "resonance-absorption to heat-generation" with the aid of FIR.
样品退火后,表面等离子体共振吸收峰红移,而伴峰消失。
After annealing, the peak attributed by the SPR shifts to red and the other peak disappears.
而且,内部的分子-原子和原子结构-体验区的同频共振吸收。
And, the interior of molecules - atoms and atomic structures - experience the resonance absorption of FIR of their same frequency.
由于树枝状的特殊结构,其等离子体共振吸收峰出现较大的宽化。
The plasmon response absorption peak broadens due to the special dendritic nanostructure.
研究表明,银的等离子体共振吸收峰的移动是尺寸效应和表面效应共同作用的结果。
The shift in absorption spectra of the silver plasmon band is explained in terms of surface effects and size effects.
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。
If considering the generated and acceleration mechanism of hot electrons, the main acceleration of hot electron comes from resonance absorption.
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。
Hence, the interaction of THz photon with the living biomolecule system can lead to the resonance effect.
夹有中间介质层氟化镁薄膜的LRSPR模式与传统模式相比,共振吸收峰的半峰宽缩小了52%。
The width of the resonance curve at half-maximum height can be reduced by 52% for LRSPR mode compared to conventional SPR mode.
此外,合适的激发光,能更好地匹配金属衬底的表面等离子体共振吸收,对表面增强荧光效应更加有利。
It is also found that proper excitation wavelength, which corresponds to greater SPR absorption of metal substrate, is another factor that can significantly influence the SEF effect.
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。
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。
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.
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