一个是电子表面等离子体波,在金属辊通过海传导电子。
A plasmon is an electronic surface wave that rolls through the sea of conduction electrons on a metal.
这些效应可以用表面等离子体激发和自聚焦理论来解释。
These effects are explained by the surface plasmon polariton Bloch modes and self-focusing theory.
入射光场的增强经由表面等离子体激元极化子共振实现。
An enhancement of the incident optical field is achieved via surface plasmon polariton resonances.
本文介绍了一种基于表面等离子体波原理的新型调制器件。
A new kind of modulator which is based on the theory of Surface Plasma Wave has been introduced in this thesis.
使用光纤表面等离子体波来测试折射率,方法简单、灵敏。
It is a simple and sensitive method to measure the refractive index with optical fiber plasma wave.
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.
对表面等离子体波共振现象产生的原理和激发条件进行了阐述。
The principle of surface plasmon resonance phenomenon and excitation condition of SPR are described in the paper .
随着薄膜中银原子浓度的降低,其表面等离子体传输发生蓝移。
The surface plasmon transmission of the films has blue-shifted with decreasing the silver atom concentrations of the films.
光纤表面等离子体波传感器中膜厚与共振波长关系的实验研究。
Experimental study on the relationship between film thickness and resonant wavelength based on the optical fiber SPW sensor.
表面等离子体子共振传感器近年来已成为传感器研究的前沿领域。
In recent years, SPR (surface Plasmon resonance, a surface plasma resonance) sensor has become a leading technology in the sensor research field.
表面等离子体子共振传感器已经成为生物传感器研究领域的热点。
The SPR sensor has become a research frontier in the biosensor field.
表面等离子体谐振(SPR)技术是一项十分重要的生物传感技术。
This article suggests that surface plasmon resonance technology (SPR) should be considered as a very important means of biosensing.
金属薄膜的色散特性是产生表面等离子体谐振现象的重要条件之一。
The dispersion characteristics of the metallic thin film is one of the essential factors for generating surface plasmon resonance.
研究了一种基于波分复用原理的准分布式光纤表面等离子体波传感器。
A quasi-distributed optical fiber surface plasmon resonance (SPR) sensor based on wavelength division multiplexing is studied.
本文简要介绍了表面等离子体共振生物传感器的结构原理及研究动向。
The research and structure principle of the Surface Plasmon Resonance biosensor are introduced in this paper.
表面等离子体波是最好的来源购买的全新,翻新,并采用IBM的设备。
SPW is the best source for buying new, refurbished, and used IBM equipment.
首先,本文研究并讨论了表面等离子体波共振效应的原理及其激发条件。
Firstly, the principle of SPR and its exciting conditions are respectively discussed in the paper.
近年来,对表面等离子体激元的研究引起了人们广泛的关注和极大的兴趣。
Recently, research on surface plasmon polaritons attracts a great deal of attention and interest.
表面等离子体激元是由金属表面自由电子和光子相互作用而形成的倏逝波。
Surface plasmon polaritons are a state of evanescent wave, which are localized on the surface of a metal by the interaction of free-electrons and photons.
理论研究了金纳米球壳结构局域表面等离子体共振(LSPR)的调谐特性。
Tunable characteristics of the localized surface plasmon resonance (LSPR) peak of gold nanoshells are investigated numerically with Mie theory.
本发明探针诱导光刻薄膜用于探针诱导表面等离子体共振光刻将大大降低刻蚀线宽。
When the probe inducing photoetching film is used for probe inducing surface plasma resonance photoetching, the corrosion linewidth is greatly reduced.
将光学非线性介质引入到多层膜结构中,讨论光学非线性对表面等离子体共振角谱的影响。
We introduce optical nonlinear medium to multi-layers structure and discuss the influence of optical non-linearity on surface plasmon resonance.
表面等离子体谐振(SPR)技术由于独特的优点日渐成为生物分子相互作用分析的领导技术。
Surface Plasmon Resonance (SPR) technology has been becoming a leading one for biomolecular interaction analysis because of its specific advantages.
随着加工的精密化,基于表面等离子体激元的亚波长光子集成器件在理论和实验上得到广泛研究。
Along with the processing precision, the sub-wavelength photonic integration devices based on surface plasmon are widely researched at the basic theories and experiments.
简述了表面等离子体子共振(SPR)技术的基本原理并综述了SPR技术在生命科学领域的应用。
The fundamental principle of surface plasma resonance (SPR) is briefly introduced and its application in life science is reviewed.
将表面等离子体共振技术引入到生物组织折射率测量研究中,从理论上,探讨了该方法的测试原理;
Surface plasmon resonance technology was introduced into the testing study of the refractive index of biological tissues, whose testing theory is discussed theoretically.
但吸附带负电荷的荧光素后,其表面等离子体共振几乎不受影响,这可能与粒子之间的静电作用有关。
Negatively charged FL, on the other hand, had slight influence on the SPR of the gold nanoparticles, likely due to the electrostatic repulsion between FL and citrates.
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.
研究表明表面等离子体共振技术作为生物组织折射率测量的一种新的手段,具有独特优势和重要的应用前景。
As a new testing method to refractive index of biological tissues, surface plasmon resonance technology has special merits and an important application in future.
研究表明表面等离子体共振技术作为生物组织折射率测量的一种新的手段,具有独特优势和重要的应用前景。
As a new testing method to refractive index of biological tissues, surface plasmon resonance technology has special merits and an important application in future.
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