光学参量产生过程中,必然存在共线和非共线光波相互作用。
It's unavoidable that collinear and non collinear interactions in the process of optical parametric generator.
详细研究激光通过光学系统后的分布对深入研究激光与物质相互作用具有重要意义。
Detailed analysis of the laser beam distribution after passed optical system is significant to the deep study the interaction of laser beam and material.
本文报道在具有竞争相互作用的混合光学系统中,反馈强度对振荡模式的影响。
In this paper, we report the influence of feedback strength on the oscillation pattern in optical system with competing interactions.
在观测上,无论在射电波段,或者X射线和光学波段的观测都提供了一些可靠的证据,说明耀斑冕环的相互作用可能导致耀斑的产生。
Observational data in the radio, X-ray and optical wavebands provide the reliable evidences that the interaction between flare coronal loops can lead to the onset of solar flares.
光场与原子相互作用是量子光学研究的主要内容。
The interaction of the field and the atom is the main content in quantum optics field.
擅长的领域包括:共轭聚合物,纳米晶,超快脉冲激光器,非线性光学,光与物质的相互作用,面向对象程序设计等。
His interests include conjugated polymers, nanocrystals, ultrafast pulsed lasers, nonlinear optics, light-matter interactions, and object-oriented programming.
量子光学是研究光场的相干性和量子统计特性以及光与物质相互作用的量子特征的学科。
Quantum optics is a subject in studying the coherence and the quantum statistical properties of radiation field, as well as the quantum characters of light interacting with matter.
非线性光学的经典问题是波的参数相互作用。
The classical problem of non-linear optics is the parametric interaction of waves.
原子与光场相互作用过程中所产生的非经典效应更加是量子光学研究的热点。
Interaction of atom and light field generated by the process more of a non-classical effects of quantum optics researchers.
FDTD广泛应用于研究电磁波与各种物体的相互作用,如微波、光镊、近场光学、细胞中光场分布的数值求解。
FDTD is widely used in the analysis of electromagnetic problems, such as microwave, Optical tweezers, near field optics and so on.
本文研究磁场中强耦合多原子极性晶体中表面电子和表面光学声子的相互作用。
In this paper, the interaction between surface electron and surface optical phonon for a strong coupling polyatomic polar crystals in magnetic field is studied.
研究结果表明,激子-纵光学声子相互作用通过屏蔽的库仑势减少了激子结合能及其相应的斯塔克能移。
Theoretical results show that the exciton-phonon coupling reduces both the exciton binding energies and the Stark shifts by screening the Coulomb interaction.
光子晶体,负折射率材料,超快、超慢现象,部分相干光学,激光物理,光与物质的相互作用等。
Photonic crystal negative refractive index materials superluminal and subluminal phenomena partially coherent light laser physics and interaction between light and matter.
其结果支持了光学模型势在奇异原子中应用的正确性,进而表明核子问的强相互作用力为吸引力。
The result coincides with the experimental date and supports greatly the optical model potential in the application of mesonic atom.
量子光学是研究光场的相干性,量子统计特性,光与物质相互作用的量子特征的学科。
Quantum optics is to study the coherence of the light field, quantum statistical properties of light and matter interacting quantum characteristics of the subjects.
荧光共振能量转移(FRET)技术作为一种高效的光学“分子尺”,在生物大分子相互作用、免疫分析、核酸检测等方面有广泛的应用。
Fluorescence resonance energy transfer (FRET) has broad applications in the study of the interactions of biological macromolecules, immunoassay, nucleic acid detection and so on.
本文利用变分原理,通过非线性薛定谔方程,导出光纤中传输的光学孤子相互作用。
The interaction between two optical soliton is derived from nonlinear Schrodinger equation by variational approach.
作为一类特殊的透明介质,非线性光学晶体因其具有不同于各向同性介质的结构,因而在与飞秒光脉冲相互作用时,可能会产生很多新的物理现象。
As a special kind of transparent material, nonlinear optical crystal may induce some more phenomena when femtosecond laser pulse propagate in it because of its peculiar structure.
使用超高斯滑频滤波器控制光学光纤中孤子相互作用的理论结果。
We derived the theoretical results of soliton interactions in optical fiber with super-Gaussian sliding-frequency filters.
这段英文第意思是: 光学 光学(外观还是看在古希腊文)是物理学的一个分支,它描述的行为和光性能和光与物质的相互作用。
Optics Optics (appearance or look in ancient Greek) is a branch of physics that describes the behavior and properties of light and the interaction of light with matter.
我们证实超高斯滑频滤波器能够有效地控制光学光纤中孤子相互作用。
The results demonstrate that the interactions between optical fiber solitons can be effectively suppressed by super-Gaussian sliding-frequency filters.
谐振子算符的代数运算方法被用于研究磁场中同时与表面光学声子及表面声学声子相互作用的二维电子。
The method of the harmonic oscillator operator algebra has been used to study the two-dimensional polaron in a magnetic field.
谐振子算符的代数运算方法被用于研究磁场中同时与表面光学声子及表面声学声子相互作用的二维电子。
The method of the harmonic oscillator operator algebra has been used to study the two-dimensional polaron in a magnetic field.
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