我们对一些关键技术进行了阐述,并进行了一些基本的光晶格实验来展示它的性能。
Some essential points used for optimization are described. Primary optical lattice experiments are given as examples to show the performance of this system.
最后,介绍了冷原子光学晶格、磁晶格和磁光晶格在光子晶体制备等方面的潜在应用。
Finally, potential applications of atomic optical lattices, atomic magnetic lattices and magneto-optical lattices in the preparation of photonic crystals and so on are briefly introduced.
外势有许多形式:简谐外势、光晶格外势、椭圆函数外势、双阱外势以及含时线性外势等等。
The external potential has many forms, such as harmonic oscillator potential, optical lattice potential, elliptic function potential, double well potential, and so on.
接着详细计算了两种方案中磁阱的磁场强度及其梯度与曲率的空间分布,理论证明了实现磁光晶格和磁晶格的可行性。
We calculate the spatial distributions of magnetic fields and their gradients and curvatures, and the results prove the possibility of realizing MOL and ML.
本文利用散射矩阵和传输矩阵等方法研究了半导体异质结量子阱和一维光晶格体系中的量子输运特性,为设计和实现具有优良性能的量子过滤器件提供理论依据。
Our arm is to explore the physical mechanisms of the effects, and to supply physical models and make theoretical validity in designing novel quantum filtering devices with better properties.
在周期势阱中研究这个系统,发现相干光产生光学晶格能够使原子具有了金属中的自由离子的性质,尽管看起来截然不同。
Trapping these systems in periodic potential wells made by intersecting light beams yields optical lattices in which atoms behave as electrons in metals, albeit at a quite different scale.
语言被编码进DNA,然后分子、以太细胞结构、晶格工作层、脉轮系统、精微身体、光身体,以及与联合语言共同织就的更大金场中。
Language is encoded into the DNA and then the molecules, etheric cellular structure, grid work, chakra system, subtle bodies, light body and greater auric field woven with the associated language.
通过透射电境、X光衍射和拉曼散射对纳米晶的晶格结构和声子特性进行了研究。
Transmission electron microscope (TEM), Raman spectroscopy and X ray diffraction (XRD) were used to investigate the lattice structures, phonon properties of the samples.
并求得它们对应的束缚能,晶格驰豫能和光离化能。
Moreover, we also deduced their correspondent values of lattice relaxation energy and optical ionization energy.
本文讨论了超晶格半导体材料(多层量子阱结构)在光开关和光计算中应用的优越性。
This paper discusses the advantages of superlattice semiconductor materials (Multiple Quantum Well Structure) in optical switching and optical computing.
当你专注于将光之语的音调带入你的晶格层时,你将每次将提升前进一点。
As you focus on bringing the Language of Light tones into your grid work, you will bring forth your ascension a little at a time.
用有效质量方法计算了磁场下超晶格的子带结构和光跃迁。
Hole subbands and optical transitions of superlattices in magnetic field are calculated on the basis of the Luttinger-Kohn effective mass theory.
现有结果表明,光调制反射光谱方法已经成为研究量子阱中子能级间跃迁过程和检测超晶格微结构等的简便而有效的手段。
It has been demonstrated that the photo-modulation spectroscopy has become one of the most powerful and simplest tools for the investigation of the inter-subband t…
这些设计包括了双层筛网幕结构,能提供透明般的视野,而且减少了因为晶格光干涉效应造成的图形扭曲,同时避免尘埃在窗户上的聚攒。
The window design contains a double layer of carefully oriented RF mesh screens to provide transparent like views, minimize pattern distortion, and prevent dust and particle buildup.
用电子一晶格耦合的紧束缚模型研究了光激发下的C_60子。
Light-excited C_ (60) is studied by electron-lattice coupling tight-binding model.
用电子一晶格耦合的紧束缚模型研究了光激发下的C_60子。
Light-excited C_ (60) is studied by electron-lattice coupling tight-binding model.
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