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One- and Two-Dimensional Arrays of Double-Well Optical Traps for Cold Atoms or Molecules
引用本文:纪宪明 印建平. One- and Two-Dimensional Arrays of Double-Well Optical Traps for Cold Atoms or Molecules[J]. 中国物理快报, 2004, 21(12): 2399-2402
作者姓名:纪宪明 印建平
作者单位:[1]KeyLaboratoryforOpticalandMagneticResonanceSpectroscopy,EastChinaNormalUniversity,Shanghai200062//DepartmentofPhysics,NantongUniversity,Nantong226007 [2]KeyLaboratoryforOpticalandMagneticResonanceSpectroscopy,EastChinaNormalUniversity,Shanghai200062
摘    要:We propose a novel scheme to form one- and two-dimensional arrays of double-well optical dipole traps for cold atoms (or molecules) by using an optical system composed of a binary π-phase grating and a lens illuminated by a plane light wave, and study the relationship between the maximum intensity Imax of each optical well (or the maximum trapping potential Umax for ^85Rb atoms) and the relative aperture β (= α/f) of the lens. We also calculate the intensity gradients of each optical well and their curvatures, and estimate the spontaneous photon-scattering rate of trapped atom in each well, including Rayleigh and Raman scattering rates. Our study shows that the proposed 1D and 2D arrays of double-well traps can be used to prepare 1D and 2D novel optical lattices with cold atoms (or molecules), or form an all-optically integrated atom optical chip, or even to realize an array of all-optical double-well atomic (or molecular) Bose-Einstein condensates by optical-potential evaporative cooling, and so on.

关 键 词:二维排列 双井光学捕获 无放射性原子 相位光栅 玻色-爱因斯坦浓缩

One- and Two-Dimensional Arrays of Double-Well Optical Traps for Cold Atoms or Molecules
JI Xian-Ming,YIN Jian-Ping. One- and Two-Dimensional Arrays of Double-Well Optical Traps for Cold Atoms or Molecules[J]. Chinese Physics Letters, 2004, 21(12): 2399-2402
Authors:JI Xian-Ming  YIN Jian-Ping
Affiliation:Key Laboratory for Optical and Magnetic Resonance Spectroscopy, East China Normal University, Shanghai 200062 Department of Physics, Nantong University, Nantong 226007
Abstract:
Keywords:32.80.Pj  32.80.Lg  33.80.Ps  42.50.Vk
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