讨论了多光子显微镜的原理和特征。
The principle and the characteristics of multiphoton exciting microscopy have been described.
介绍基于飞秒脉冲产生机理用于多光子显微镜的先进激光技术。
The advanced laser techniques for microscope are based on the femtosecond pulse generation mechanism.
研究人员使用了一种称为双光子显微镜的高端仪器,从而能够观察活组织里的情况。
The scientists used a leading-edge instrument called a two-photon microscope, able to peer inside living tissues.
双光子显微镜捕获的电影图像于是就记录了所谓的肿瘤微环境内以前不能观察到的景象。
Movies captured with the two-photon microscope then recorded the unfolding scene in the so-called tumor microenvironment.
采用先进的双光子显微镜成像系统,研究人员发现了一些特定神经元中对这种饥饿依赖的嗅觉响应改变。
Using two-photon microscopy, a state-of-the-art imaging system, the researchers found starvation-dependent changes of olfactory response in specific neurons.
光子扫描隧道显微镜的研制与样品显微成像技术。
The development of photon scanning tunneling microscopy and the microscopical imaging technology of samples.
这种结构的金属薄膜在光印刷、近场显微镜和光子器件等方面有着广泛的应用前景,近年来引起了人们的重视。
There has been a great interest in such structured films due to its potential applications in photolithography, near field microscopy and photonic devices.
文章对双光子激光扫描荧光显微镜的原理及其应用进行了综述。
The principle of two-photon laser scanning fluorescence microscopy and its applications are reviewed.
本文提出一种简捷有效的方法,即等效入射波法分析光子扫描隧道显微镜(PSTM)。
A simple and effective method - equivalent incident wave method of FDTD was presented and used for analysis of photon scanning tunneling microscopy (PSTM).
表明时域有限差分方法在光子扫描隧道显微镜理论研究中具有很大潜力。
The results show that the finite difference time domain method is an efficient tool for photon scanning tunneling microscope.
光子扫描隧道显微镜(PSTM)是一种高分辨率的扫描探针式显微镜。
Photon scanning Tunneling microscopy (PSTM) is a kind of scanning probe microscopy with high resolution.
在荧光素酶中加入正确的荧光素底物就可以放出荧光,而发出的光子可以被光敏感元件,如荧光探测器或改进后的光学显微镜探测到。
Light is emitted when luciferase is exposed to the appropriate luciferin substrate. Photon emission can be detected by light sensitive apparatus such as a luminometer or modified optical microscopes.
扫描电子显微镜是对人工欧泊光子晶体进行形貌观察、研究的重要手段。
SEM is an important means for the observation and study of the artificial opal photonic crystal.
研究了不同荧光波长对双光子荧光共焦显微镜横向、纵向分辨率和光斑强度的影响。
The numerical results show that the transverse resolution, the axial resolution, and the intensity of the spot increase as the rate of fluorescent wavelength to illustrated wavelength increases.
导出了共焦双光子荧光显微镜探测光强随荧光波长变化的解析表达式。
The analytic expressions of the fluorescent intensity are derived in two_photon fluorescence confocal imaging.
利用该方法研制的成品弯曲光纤探针应用于光子扫描隧道显微镜系统,得到了比较理想的样品图像。
The bend optical fiber probe is used in developed NSOM system and the perfect images are obtained.
进一步根据角谱传递函数计算了不同样品的光子扫描隧道显微镜理论图像,分析了探针与样品的间距、探针孔径大小、照明光入射角等对光子扫描隧道显微镜成像的影响。
Based on ASTF the influence of such parameters as tip-sample distance, tip aperture diameter and the incident Angle of illuminating laser beam on PSTM image has been discussed.
光子扫描隧道显微镜所得图像与很多因素有关,如:样品形貌、样品折射率、入射光的极化方式、探针的性质。
The image obtained by PSTM depends on a various complex factors such as the sample's optical properties, the polarization of the incident field, probe properties and so on.
光子扫描隧道显微镜所得图像与很多因素有关,如:样品形貌、样品折射率、入射光的极化方式、探针的性质。
The image obtained by PSTM depends on a various complex factors such as the sample's optical properties, the polarization of the incident field, probe properties and so on.
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