1) secular resonance
长期共振
2) orbital resonance and secular resonance
轨道共振与长期共振
3) resonant period
共振周期
4) periodic resonance
周期共振
5) resonant wavelength
共振波长
1.
Using it, the relationship between refractive index and resonant wavelength of different concentrations from 0% to 70% glycerin solution are measured.
通过自行设计的一套光纤表面离子体波传感器测试系统 ,测定了从 0 %~ 70 %的不同浓度甘油水溶液折射率与共振波长的关系 ,实验结果具有较好的重复性并和理论分析相吻合。
2.
The resonant wavelength, which is a key parameter, has been calculated theoretically in terms of the conditions of surface plasmon resonance, and the maximum measurement range of optical fiber SPR sensors is given out while other parameters are fixed.
根据表面等离子体波的共振条件计算了光纤SPR传感器的关键参数———共振波长 ,并且给出在一定条件下传感器的最大量程。
3.
Through the measurement to different quality fraction glycerite,useful information is obtained that the resonant wavelength of SPR spectrum is changed with the refractive index of environmental media,and the feasibility is validated to detect environmental media using the sensor.
通过对不同质量分数的甘油溶液进行测试,获得了SPR光谱共振波长等随待测环境介质折射率变化的有效信息,证实了使用这种传感器进行环境介质检测的可行性。
6) resonance wavelength
共振波长
1.
A double-parameter measure method based on resonance wavelength λspr and resonance light intensity Rmin is presented.
研究了表面等离子体波共振(SPR)光谱对入射光角度变化的敏感特性,提出了对共振波长和共振强度进行双参数检测的方法。
2.
SPR spectrum outputted property is obtained according to experimental results, Which resonance wavelength and the lowest light intensity reflectivity vary with the change of liquid refractive index and type.
通过研究SPR传感探头在四种不同液体介质中的光谱输出特性,获得SPR光谱共振波长、最小光强反射率随液体折射率、类型不同而改变的特性。
3.
The resonance wavelength and SPR amplitude were calculated.
计算其共振波长和强度,为证实表面等离子体共振的产生,对比不同位置处传导模的分布。
补充资料:电子自旋共振(见电子回旋共振)
电子自旋共振(见电子回旋共振)
electron spin resonance
电子自旋共振eleetron spin resonanee见电子回旋共振。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条