“这些极性分子(的研究)是量子光学的顶峰。”
许多量子光学系统都表现出混沌现象。
自发辐射是量子光学中的一个基本问题。
Atomic spontaneous decay is a fundamental object in quantum optics.
光的聚束效应的发现是量子光学的重要里程碑。
The discovery of photon bunching effect is an important milestone of quantum optics.
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.
在本论文中我们研究光子晶体中的量子光学现象。
In this dissertation we study the quantum optical phenomena in photonic crystals.
所以,光场压缩态仍然是量子光学的一个重要课题。
Therefore, the study on squeezing phenomena is an important topic in quantum optics.
这些结果可直接用来分析EPR问题的量子光学实验。
All these results can be used to analysing the quantum optics experiments of EPR Paradox.
激发态原子的自发辐射现象是量子光学领域是最基本的过程之一。
The spontaneous emission phenomenon of an excited atom is one of basic processes in quantum optics.
德国马普量子光学研究所所长,德国慕尼黑大学实验物理系主任。缊。
Director at Max Planck Institute of Quantum Optics, and Chair of Experimental Physics, Faculty of Physics, at Ludwig Maximilian University of Munich, Garching GERMANY and Munich, GERMANY.
激光微束的动力学效应是近十年来量子光学领域中最前沿的研究课题。
The research about the dynamics effect of laser microbeam is the frontier subject of quantum optics in the recent 10 years.
自发发射是光学和辐射学中最基本的问题,也是量子光学的基础之一。
Spontaneous emission is a basic phenomenon in the study of light and radiology.
光学介质的吸收和色散性质在量子光学与非线性光学中有着广泛的应用。
The dispersion and absorption properties of optical medium have been extensively applied in quantum optics and nonlinear optics.
文章利用量子光学的热库理论,讨论光纤损耗对光脉冲压缩态带来的影响。
In this paper, the influence of fiber losses was discussed for optical pulse squeezed states by means of heat reservoir theory in quantum optics.
压缩原子理论的发现及其实验的实现是量子光学与原子光学中重大进展之一。
The theoretical development and experimental realization of atomic squeezing is one of the greatest progresses in optical and atomic optics.
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.
在量子光学的研究领域,非经典光场的产生及应用是一个国际前沿的研究课题。
The study on the generation and application of nonclassical optical fields is an international advanced research topic.
由布里斯托尔大学量子光学中心的科学家制造的光子芯片可以利用光而不是用电来传递信息。
The photonic chip, built by scientists from Bristol's Centre for Quantum Photonics, USES light rather than electricity to pass information.
研究组经过一年多的努力已经搭建其一个量子光学实验室和一个原子物理实验室。
Through one year effort, we have established a quantum optics laboratory and an atomic physics laboratory.
相干态是物理学中一个重要的概念,在激光物理和量子光学中起着尤为重要的作用。
Coherent state is a vital conception in physics and has significant action in laser physics and quantum optics.
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.
研究光学参量图像放大系统的量子特性和物理应用是非线性光学和量子光学的重要内容。
It is one of the most important contents for the quantum optics and nonlinear optics to study on the quantum properties and physical applications of the parametric image amplifier.
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.
对于量子光学的双粒子纠缠态表象,我们给出一个新途径以分析其在福克空间中的表达式。
For the bipartite entangled state representation in quantum optics, the author present a new approach to analyze its expression in Fock space.
他们重新建立了一个新的理论,即量子光学,用来解释那些在经典物理学中无法解释的东西。
They are able to build and reconstruct states of light with intrinsic quantum properties, unexplainable in classical terms.
另一方面,原子相干效应是量子光学和激光物理学的重要课题,一直以来都是科学研究的热点之一。
On the other hand, atomic coherence effect is an important topic in quantum optics and laser physics and it always has been one of hotspots in scientific research.
这些效应相信会给声子晶体、光子晶体的研究,甚至光子晶体中量子光学的研究带来一些新奇的特征。
These abnormal phenomena will definitely explore the study of sonic crystals, photonic crystals and quantum optics in photonic crystals.
这些效应相信会给声子晶体、光子晶体的研究,甚至光子晶体中量子光学的研究带来一些新奇的特征。
These abnormal phenomena will definitely explore the study of sonic crystals, photonic crystals and quantum optics in photonic crystals.
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