Then we investigate the phase transition of Bose-Einstein condensation in optical lattice.
接下来我们讨论了光格子中玻色-爱因斯坦凝聚的相变问题。
In Chapter II, the creation of an optical lattice as well as its properties and potential applications are discussed.
第二章介绍了光学晶格的产生、特征及其应用。
Some essential points used for optimization are described. Primary optical lattice experiments are given as examples to show the performance of this system.
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。
The external potential has many forms, such as harmonic oscillator potential, optical lattice potential, elliptic function potential, double well potential, and so on.
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 conception and algorithm simulation of lattice digital filter in electronics are transplanted into optical filter, with a novice algorithm to resolve optical lattice array concrete parameter.
将成熟的电子学里的格型数字滤波器的概念和设计算法移植到光学滤波器,给出了根据目标滤波传递函数求解光格型阵列具体参数的算法。
Reductions of lattice spacing and force constants between atoms induce modifications in the band structures of solids and thus in electronic properties and optical properties.
晶格常数和原子间力常数的改变影响了相邻电子轨道的重合程度,引发电子能级和光学性质的变化。
These results would provide theoretical instruction for designing optical integrated devices using photonic crystal with a rhombus lattice.
这些研究结果对设计菱形晶格结构的光子晶体光学集成器件具有重要的指导意义。
The influence of Mg concentration in doping on phase matching temperature, phase matching Angle, optical homogeneity, lattice parameter and density of the crystal is also stated.
掺镁浓度对晶体相匹配温度、相匹配角、光学均匀性、点阵常数和密度的影响。
Moreover, we also deduced their correspondent values of lattice relaxation energy and optical ionization energy.
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.
并求得它们对应的束缚能,晶格驰豫能和光离化能。
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