原子光学

集成原子光学及其原子芯片

Integrated atom optics and atom chip

晶格原子光学及其应用

Lattice atom optics and its applications

可应用于芯片级原子光学器件上的VCSEL激光器控制系统研究

The Development of VCSEL Laser Control System and Its Applications in the Chip-Scale Atomic Optical Devices

对原子光学的实验研究：利用载流导线结构来初步实现对~（85）Rb原子的导引。

Experimental study of atomic optics : using the current carrying wire structures , we have demonstrated loading ~ ( 85 ) Rb cold atoms into the current carrying wire guide .

以原子光学为基础的原子光刻技术是一种新型纳米结构的加工技术。

Atom lithography based on atom optics is a new method of fabricating nanometer structure .

新颖原子光学反射镜的理论研究

Theoretical Study of Novel Atom-optical Mirrors

它的出现将原子光学的研究从线性领域推进至了非线性领域。

So its production pushed the research of atom optics from linear region into nonlinear region .

聚焦现象说明红失谐聚焦高斯光束可以作为一个良好的原子光学透镜。

And the focusing phenomenon indicates that a red-detuning Gaussian beam can act as an excellent atom-optical lens .

目前玻色-爱因斯坦凝聚在原子光学、量子力学、量子计算等领域已经得到广泛的应用，对技术科学和应用科学的研究起到了巨大的推动作用。

Currently Bose-Einstein condensation has been widely used in atom optics , quantum mechanics , quantum computing and other fields .

此外，我们讨论了HE（11）模输出中空光束在原子光学中的潜在应用，比如原子导引与原子漏斗等。

We also discuss some potential applications of the HE11-mode output beam in atom optics , such as atomic funnel and guiding , and so on .

芯片原子光学器件的发展得益于两大核心技术的进展：可调制单频微型半导体激光器技术和原子传感器的微制造技术。

The development of the chip-scale atomic optical device is due to the two core technologies-the tuned diode laser and the fabrication of the atomic sensors .

拉盖尔高斯光束在激光物理、光通讯、原子光学、电子加速、光学成像、光学捕获等领域都有着重要的应用价值。

Laguerre-Gaussian beams ( LGB ) have important applications in laser physics , free-space optical communication , atom optics , electron acceleration and particles trapping asits special properties .

结论部分相干光束的光束整形研究为潜在的应用，如材料处理，光学治疗、原子光学等，提供了一个新的光束整形的方法。

Conclusion This research for beam shaping of the partially coherent beam offers new schemes for potential applications such as material processing , optical therapy and atom optics etc.

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 .

应用激光冷却技术能使这一影响减小，从而使磁透镜在原子光学领域得到更广泛的应用。

The use of laser cooling atomic beam technique can greatly reduce this aberration and makes the magnetic lens a useful tool in the field of atomic optics .

本文的工作重点是建立了一套用于原子光学实验研究的系统，目前我们在该系统上获得了初步的实验结果，为将来对集成原子光学&原子芯片的研究打下了较好的基础。

We have obtained some initial experimental outcome from this system , which will certainly contribute to our future experimental studying on the integrated atom optics : atom chips .

原子光学技术的进步使得原子光学仪器在诸多测量领域确立了高精度测量手段的地位，如原子频标、原子磁强计和原子惯性系统。

As atomic optics technology improves , the atomic optical device has developed to be a high-precision measurement method in many fields , such as CSAC , CSAM and CSAG .

在非线性原子光学中只存在接触相互作用的玻色-爱因斯坦凝聚体可以与非线性光学中的克尔介质相类比。

In nonlinear atom optics , contact interacting BEC is analogue to Kerr media nonlinear optics . In a dipolar BEC , there is also dipole-dipole interaction which is long range and anisotropic .

近来随着原子光学技术的发展，可以利用超小尺度量子微腔中的电磁场来控制原子的动力学行为。

Recently , with the development of experiment technique in atomic optics , the behaviour of atom has been controlled , by the electromagnetic field in a quantum microwave cavity which is considerable small .

随着近几十年实验技术的进步，特别是微结构技术和激光冷却技术的发展，原子光学的实验手段得到了很大的完善。

As the consequences of the rapid progress of experimental techniques , especially in the range of micro-technologies and laser cooling technologies , atom optics offers the possibility of several advantages over existing techniques .

空心光束就是中心强度为零的激光光束，因其在激光光学、原子光学、二元光学、光学捕获微观粒子、医学等方面广泛的应用而引起研究者们越来越多的关注。

DHBs with zero central intensity have important applications in laser optics , atomic optics , binary optics , optical trapping of particles , medical sciences and so on , more and more attentions are being paid to DHBs .

光学涡旋是一种具有特殊的波前相位结构的光场，在光学微操纵、原子光学、生物医学、非线性光学、光学信息传输等领域得到了重要而广泛的应用。

Optical vortex is intriguing special optical structures with spiral phase wave-fronts . This kind of special optical field has been applied in many fields including optical micromanipulation , atomic optics , biomedicine , nonlinear optics , and quantum information processing .

随着原子光学的快速发展，一门新兴的有关研究中性分子与电场、磁场和光场等物质相互作用及其冷却、囚禁、操控与应用的学科&分子光学正在逐步形成。

With the fast development of atom optics , a new subject has been created molecule optics , that studies the interaction of neutral molecules with electric , magnetic and light fields , as well as the cooling , trapping , manipulation and control of molecules .

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。

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 .

用时间平移矩阵方法对真空中V型三能级原子非线性光学性质的理论研究

Theoretical studies of nonlinear properties for V-level atoms in vacuum by using time translational matrix method

钙原子束光学Ramsey实验的初步工作

Preliminary Work on Calcium Beam Optical Ramsey Experiment

~7Li原子在光学晶格中Mott相的激发谱

Excitation Spectra of Mott-insulator Phases of ~ 7Li Atoms in an Optical Lattice

我们就PHB冷却的动力学过程进行了MonteCarlo模拟，并计算了Ar+中空光束囚禁133Cs原子的光学势。

We have performed Monte Carlo simulations for PHB cooling process , calculated the optical potential for 133 Cs atoms in Ar + hollow laser beam , and estimated total collision loss and atomic density .

在本文中，首先，简单介绍了经典光场作用下原子的光学Stark效应。其次，概述了半导体电子能带的基本理论及方法。

In this thesis , we first introduce the atomic optical Stark effect in a classical light field , and then describe some basic theories and methods of electronic bands in semiconductors .

文中对为流动VLBI站研制的新一代氢脉泽的物理结构特点进行了讨论，包括对腔泡结构、磁屏蔽、原子束光学系统等。

This paper provides information about the design and specifications of a new generation of the H maser for the Chinese mobile VLBI stations , including the improvement of the cavity bulb , magnetic shields and atomic beam optics .