这项技术包含拉曼散射,这种散射指反射光会因为原子或分子的激发而有一个波长上的移动。
These techniques include Raman scattering, in which light returns with a shift in wavelength as a result of atomic or molecular laser excitation.
你可以得到一个弹性散射的碰撞,在那,原子就会反射,铀235原子,还会继续,那也可能会减慢一点。
You can have an elastic scattering collision where the neutron just essentially bounces off the uranium 235 atom and just continues on and it's possibly slowed down ever so slightly.
拉曼光谱的工作原理是使用一束激光照射到原子上,然后收集并分析产生的散射光的波长和密度。
Raman spectroscopy works by shining a laser light onto a molecule and then collecting and analysing the wavelength and intensity of the resulting scattered light.
打到原子核了就是背散射,如果打到框上。
It's not going to be a backscatter event if your ping-pong ball hits the frame or these strings, or the top part.
文中方法和结果在原子散射过程的理论计算中有广泛的应用。
Our method and result can be extensively used in the theoretical calculation of atomic scattering processes.
当离子在鞘层运动时,考虑离子与中性原子之间的电荷交换和弹性碰撞,以及离子被尘粒的库仑散射和收集作用。
The charge exchange and elastic collision between ion and neutral atoms and the collection and Coulomb scattering of ion on dust grains are considered.
他们的研究重点集中在拉曼效应,也就是当光经由原子震荡而散射时,光波波长增加的过程。
In particular, they focused on the Raman effect, a process in which the wavelength of light lengthens after it scatters off atomic vibrations.
X射线散射和衍射对于厚度为几个原子层到几十微米的薄膜材料是灵敏的。
X ray scattering and diffraction are sensitive to thin film materials that thickness is the several atomic layer to many tens micrometers.
利用原子散射因子数据,对常用X射线组合透镜材料在高能X射线波段的光学常数进行了计算,并分析了组合透镜设计中的材料选择问题。
With the data of atom scattering factors, optical constants of some useful material for X-ray compound lens in high-energy X-ray waveband were calculated.
作者采用等效势方法讨论了电子被原子散射的物理模型。
A model, which is called optical potential model of physics, for the scattering of electron by atomic oxygen, is discussed.
该研究小组利用共焦光学显微镜观察纤维,利用动态光散射技术证实了纤维的组装过程,而且利用原子力显微镜技术(AFM)研究了它们的形态。
The research team observed the fibers using confocal light microscopy, confirmed their assembly using dynamic light scattering and studied their morphology using atomic force microscopy (AFM).
我会把,这些原子散射角的数据发给你。
I'm going to give you the data set of the scattering angles of the atoms.
卢瑟福背散射分析结果表明,铁、氮两种原子的密度沿膜厚度方向呈梯度变化。
Rutherford backscattering spectrometry (RBS) demonstrates that the concentration of Fe or N atoms varies gradually from the substrate to the surface through the whole thickness of the films.
利用原子力显微镜、能量散射X射线谱、X射线衍射和交变梯度磁强计研究了该颗粒膜材料的结构和磁学性质。
The structural and magnetic properties of the granular film are studied by atomic force microscope, energy dispersion X-ray spectrum, X-ray diffraction, and alternating gradient magnetometer.
环绕在拱门四周的植被组成的图案,类似于原子爆炸时核粒子散射并穿过景观地形。
The vegetation around the arches is patterned to resemble an explosion or field of sub atomic particles scattered across the landscape.
时效初期,过饱和固溶体分解形成原子偏聚区,电子散射增加,合金电导率下降。
At the beginning of ageing, GP zone was formed with the decomposition of the supersaturated solid solution, electron scattering increased, the electrical conductivity decreased.
本文提出,可以用晶界对溶质原子热运动散射的量子理论来解释溶质原子在运动晶界上的偏聚现象。
In present work, the quantum theory of scatter of grain boundary to solutes has been proposed to explain the solute segregation on moving boundaries.
用动态激光光散射(DLS),原子力显微镜(AFM)和透射电镜(TEM)等测试方法对配合物胶束的形态及尺寸进行了表征。
The morphologies and sizes of the micelles were characterized by dynamic laser scattering (DLS), atomic force microscopy (AFM) and trans-mission electron microscopy (TEM) and so on.
本文讨论了慢电子被原子散射的物理模型。
A model of physics for the scattering of slow electron by atoms is discussed.
我们现在对原子核的许多认识来自散射实验。
Much of what we know about nuclei comes through scattering experiments.
从原子中的电子对X光散射的概念出发,对任意一个晶胞内的任意一个原子产生的X光衍射给出了具体的数学描述。
From the conception of X ray diffraction of electrons in an atom, the mathematical expression of X ray diffraction for an atom in a crystal cell is given.
对于0 0 0 2的非弹性碰撞入射原子约化质量增大,大角散射几率增大。
For 00 02 inelastic collision, scattering at the large Angle keep pace with the increase of reduce mass of incident atom.
并且受边界散射效应的影响,热导率值随硅锗原子百分比的不同发生变化;
The thermal conductivities change with different Si and Ge atoms percent because of the effect of interface scatterings;
本文主要探讨中微子-原子核深度非弹散射中的EMC效应。
This paper is to study the EMC effect in deep inelastic neutrino nucleus scattering.
在扭曲波冲量近似下,讨论中能区反质子与原子核非弹性散射的微分截面和极化度。
In the framework of the distorted wave approximation, we discuss the differential cross section and polarization of antiproton-nucleus inelastic scatterings at intermediate energies.
通过X射线衍射、拉曼散射、原子力显微分析(afm)等表征方法研究薄膜结构与生长条件的关系。
The relationship between thin films structure and preparation parameters was studied by X-ray diffraction, Raman scattering and AFM.
利用改进型通用交叉分子束装置和脉冲直流放电产生脉冲氟原子束实验方法,研究了氟原子和1,3丁二烯分子的反应散射。
The fluorine atom reaction with trans-1,3-bu ta diene has been investigated by using the crossed molecular beam method.
实验中对硅烷膜用X-射线光电子能谱(XPS)、现场表面增强拉曼散射光谱(SERS)和原子力显微镜(AFM)进行了表征。
The silane films were characterized by Xray photoelectron spectroscopy (XPS), insitu Surfaceenhanced Raman spectroscopy (SERS), atom force microscopy (AFM).
由于电子与氢原子碰撞所造成的典型双电子散射所造成的放射状波函数(此图形由国家能源研究科学计算中心所提供。)
A representative radial wave function of two electrons scattered in the collision of an electron with a hydrogen atom. (Image courtesy of National Energy Research Scientific Computing Center.)
由于电子与氢原子碰撞所造成的典型双电子散射所造成的放射状波函数(此图形由国家能源研究科学计算中心所提供。)
A representative radial wave function of two electrons scattered in the collision of an electron with a hydrogen atom. (Image courtesy of National Energy Research Scientific Computing Center.)
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