2) lattice absorption
晶格吸收<冶>
3) optical lattice
光学晶格
1.
Loading and cooling of cesium atoms in 3D optical lattice;
三维光学晶格中铯原子的装载与冷却
2.
The ground state energy and the average atom number per lattice site of 7Li atoms that are loaded into an optical lattice have been calculated when the repulsive three-body interaction is considered.
在考虑三体排斥相互作用的前提下,通过计算加载在光学晶格中的、具有两体吸引相互作用的7Li原子的基态能量和单格点平均粒子数,说明了具有两体吸引相互作用的原子也可以发生超流-Mott绝缘相变。
3.
We study the quantum phases that may arise when 7Li atoms that possess an attractive two-body interaction are loaded into an optical lattice.
主要讨论加载在光学晶格中的、具有两体吸引相互作用的7L i原子可能呈现的量子相。
4) optical lattices
光学晶格
1.
The recent development of lattice atom optics is introduced, including atomic optical lattices, atomic magnetic lattices and magneto-optical lattices, and some new results of atomic magnetic lattices and magneto-optical lattices, and some new results on the investigations of magnetic and magneto-optical lattices are reported.
首先介绍了近年来发展起来的晶格原子光学,包括冷原子光学晶格、磁晶格和磁光晶格,并报道了国内一些小组研究磁晶格和磁光晶格的一些新结果。
2.
Then optical lattices produced by interfering laser beams are considered.
然后我们介绍了由相干激光束所产生的光学晶格,以及位于其中的玻色原子所呈现的量子相:超流相和Mott绝缘相。
5) optics of crystalline lattice
晶格光学
6) optical absorption
光学吸收
1.
We propose models of the incoherent optical absorption and exciton transport to simulate the processes of absorption and exciton diffusion in organic photovoltaic devices according to the optical principle and diffusion theory.
模拟了限制光伏效率的光学吸收和激子扩散两个主要过程,获得了薄膜厚度与光学吸收、转换效率之间的函数关系,为增强有机薄膜的光学吸收、激子分离与传输并获得高转换效率的有机光伏电池奠定理论基础。
补充资料:A和B交替生长的超晶格结构
A和B交替生长的超晶格结构
A和B交替生长的超晶格结构层厚:黑2帆A 白30A B中周科学院十导体研究所供稿
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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