1) optical lattice
光晶格
1.
The modulational instability(MI)of nonlinear coherent spin waves in an atomic spin chain of spinor Bose-Einstein condensates confined in an optical lattice is studied.
研究了囚禁在光晶格中的旋量玻色-爱因斯坦凝聚体(BEC)形成的原子自旋链中的相干非线性自旋波的激发与调制不稳定性。
2.
From GP equation and discrete Schrdinger equation,the modulational instability of dipole Bose-Einstein Condensates(BEC) in an optical lattice is studied.
在GP方程和离散Schr d inger方程的基础上,对光晶格中偶极玻色-爱因斯坦凝聚体(BEC)的调制不稳定性进行了研究,得到了光晶格偶极BEC原子系统的激发谱和调制不稳定性区域与在位相互作用以及偶极-偶极相互作用之间的关系。
3.
Recently, experiments on Bose\|Einstein condensates (BECs) confined in an optical lattice have made breakthroughs.
近来应用光晶格 (optical lattice) 控制原子玻色-爱因斯坦凝聚体 (BEC)的研究取得了突破性的进展。
2) Optical lattices
光晶格
1.
The groud-state wave function and evolution of the interference pattern for a Bose-condensed gas in 3D optical lattices;
三维光晶格中玻色凝聚气体基态波函数及干涉演化
2.
The results show that there is a great influence of site-to-site interaction on the MI of the two-component dipolar BECs in the optical lattices.
利用线性稳定性分析的方法,对光晶格中双组分偶极玻色-爱因斯坦凝聚体(Bose-Einstein condensates,简称BECs)的调制不稳定性进行了研究。
3.
The research of the tunneling dynamics of Bose-Einstein Condensation (BEC) loaded into optical lattices have attracted enormous attention.
光晶格中BEC的隧穿动力学性质已发展成为当前冷原子研究领域的一个热点课题。
3) photonic lattice
光子晶格
1.
Novel spatial gap solitons in photonic lattices;
光子晶格中新颖的空间带隙孤子——饶毓泰基础光学二等奖介绍
2.
Novel discrete solitons in light-induced photonic lattices;
光诱导光子晶格结构中新型的离散空间光孤子
3.
In our experiment,we illuminate the area of light induced photorefractive photonic crystal,which the fre- quency of the latter is the same as the frequency of light of forming the photonic crystal,when the angle between incidence light and the direction of the period of photorefractive photonic lattice,is lesser than 12°,we observed the localized phe- nomenon of photorefractive photonic lattice.
实验中我们用与在LiNbO_3:Fe晶体中写入光折变光子晶格时相同频率的光照射到LiNbO_3晶体写入光折变光子晶体的区域,在入射光与光折变光子晶格周期方向成较小的角度(小于12°)时,观察到了光折变光子晶格对光的局域现象。
4) photonic lattices
光子晶格
1.
Two-level model of light propagation in photonic lattices and nonlinear Landau-Zener tunneling
光子晶格中光束演化的二能级模型及非线性Landau-Zener隧穿
2.
Nonlinear Landau-Zener tunneling in two-dimensional photonic lattices
二维周期光子晶格中的非线性Landau-Zener隧穿
3.
Using interference method fabricate photonic lattices in self-defocus photorefractive crystal LNbO_3:Fe.
用干涉法在自散焦光折变晶体LiNbO3:Fe中写入光子晶格的动态过程中,发现了双光束干涉条纹一分为二,四光束干涉点阵一分为四的分裂现象。
5) 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。
6) 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。
补充资料:表光合强度(见光合强度)
表光合强度(见光合强度)
forecast of sowing or transplanting time
b iaoguanghe qiangdu表光合强度见光合强度
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条