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Optically induced atomic lattice with tunable near-field and far-field diffraction patterns
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作者 FENG WEN HUAPENG YE +5 位作者 XUN ZHANG WEI WANG SHUOKE LI HONGXING WANG YANPENG ZHANG CHENG-WEI QIU 《Photonics Research》 SCIE EI 2017年第6期195-202,共8页
Conventional periodic structures usually have nontunable refractive indices and thus lead to immutable photonic bandgaps. A periodic structure created in an ultracold atoms ensemble by externally controlled light can ... Conventional periodic structures usually have nontunable refractive indices and thus lead to immutable photonic bandgaps. A periodic structure created in an ultracold atoms ensemble by externally controlled light can overcome this disadvantage and enable lots of promising applications. Here, two novel types of optically induced square lattices, i.e., the amplitude and phase lattices, are proposed in an ultracold atoms ensemble by interfering four ordinary plane waves under different parameter conditions. We demonstrate that in the far-field regime, the atomic amplitude lattice with high transmissivity behaves similarly to an ideal pure sinusoidal amplitude lattice, whereas the atomic phase lattices capable of producing phase excursion across a weak probe beam along with high transmissivity remains equally ideal. Moreover, we identify that the quality of Talbot imaging about a phase lattice is greatly improved when compared with an amplitude lattice. Such an atomic lattice could find applications in alloptical switching at the few photons level and paves the way for imaging ultracold atoms or molecules both in the near-field and in the far-field with a nondestructive and lensless approach. 展开更多
关键词 Optically induced atomic lattice with tunable near-field and far-field diffraction patterns EIT
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Monte Carlo simulations of electromagnetically induced transparency in a square lattice of Rydberg atoms
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作者 Shang-Yu Zhai Jin-Hui Wu 《Chinese Physics B》 SCIE EI CAS CSCD 2021年第7期283-288,共6页
We study the steady optical response of a square lattice in which all trapped atoms are driven by a probe and a coupling fields into the ladder configuration of electromagnetically induced transparency(EIT).It turns o... We study the steady optical response of a square lattice in which all trapped atoms are driven by a probe and a coupling fields into the ladder configuration of electromagnetically induced transparency(EIT).It turns out to be a manybody problem in the presence of van der Waals(vd W)interaction among atoms in the upmost Rydberg state,so Monte Carlo(MC)calculation based on density matrix equations have been done after introducing a sufficiently large cut-off radius.It is found that the absorption and dispersion of EIT spectra depends critically on a few key parameters like lattice dimension,unitary vd W shift,probe Rabi frequency,and coupling detuning.Through modulating these parameters,it is viable to change symmetries of the absorption and dispersion spectra and control on demand depth and position of the transparency window.Our MC calculation is expected to be instructive in understanding many-body quantum coherence effects and in manipulating non-equilibrium quantum phenomena by utilizing vd W interactions of Rydberg atoms. 展开更多
关键词 electromagnetically induced transparency Rydberg atomic lattices Monte Carlo simulations
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Hertz-Level Clock Spectroscopy of ^(171)Yb Atoms in a One-Dimensional Optical Lattice 被引量:1
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作者 张梦娇 刘慧 +4 位作者 张曦 姜坤良 熊转贤 吕宝龙 贺凌翔 《Chinese Physics Letters》 SCIE CAS CSCD 2016年第7期33-37,共5页
An ultra-narrow spectroscopy of clock transition with high signal-to-noise ratio is crucial for a high-performance atomic optical clock. We present a detailed study about how to obtain a Hertz-level clock transition s... An ultra-narrow spectroscopy of clock transition with high signal-to-noise ratio is crucial for a high-performance atomic optical clock. We present a detailed study about how to obtain a Hertz-level clock transition spectrum of 171 Yb atoms. About 4 × 10^4 atoms are loaded into a one-dimensional optical lattice with a magic wavelength of 759 nm, and a long lifetime of 3 s is realized with the lattice power of I W. Through normalized shelving detection and spin polarization, 171 Yb clock spectroscopy with a fourier-limited linewidth of 5.9 Hz is obtained. Our work represents a key step toward an ytterbium optical clock with high frequency stability. 展开更多
关键词 Hertz-Level Clock Spectroscopy of line as time is Yb Atoms in a One-Dimensional Optical lattice in
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Controlling the Directed Quantum Transport of Ultracold Atoms in an Optical Lattice with a Periodic Driving Field
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作者 董冬 龚明 +1 位作者 邹旭波 郭光灿 《Chinese Physics Letters》 SCIE CAS CSCD 2015年第2期10-13,共4页
We propose a new method to control the directed quantum transport of ultracold atoms in a one-dimensional optical lattice. In this proposal, the effective tunneling between the neighboring sites can be adjusted via co... We propose a new method to control the directed quantum transport of ultracold atoms in a one-dimensional optical lattice. In this proposal, the effective tunneling between the neighboring sites can be adjusted via coherent destruction of tunneling by tuning the phase of the external field, instead of using the driving field intensity or the frequency, thus the directed quantum transport of ultracold atoms can be coherently controlled in a nmch easier manner. Our proposal overcomes the major drawback of the method used by Creffield et al [Phys. Rev. Lett. 99 (2007) 110501], and can be implemented, in principle, in any one-dimensional optical lattice. Some potential applications of the scheme are also discussed. 展开更多
关键词 exp Controlling the Directed Quantum Transport of Ultracold Atoms in an Optical lattice with a Periodic Driving Field
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Two-dimensional novel optical lattices with multi-well traps for cold atoms or molecules 被引量:3
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作者 陆俊发 纪宪明 印建平 《Chinese Optics Letters》 SCIE EI CAS CSCD 2006年第12期683-686,共4页
We propose some new schemes to constitute two-dimensional (2D) array of multi-well optical dipole traps for cold atoms (or molecules) by using an optical system consisting of a binary 7r-phase grating and a 2D arr... We propose some new schemes to constitute two-dimensional (2D) array of multi-well optical dipole traps for cold atoms (or molecules) by using an optical system consisting of a binary 7r-phase grating and a 2D array of rectangle microlens. We calculate the intensity distribution of each optical well in 2D array of multi-well traps and its geometric parameters and so on. The proposed 2D array of multi-well traps can be used to form novel 2D optical lattices with cold atoms (or molecules), and form various novel optical crystals with cold atoms (or molecules), or to perform quantum computing and quantum information processing on an atom chip, even to realize an array of all-optical multi-well atomic (or molecular) Bose- Einstein condensates (BECs) on an all-optical integrated atom (or molecule) chip. 展开更多
关键词 WELL Two-dimensional novel optical lattices with multi-well traps for cold atoms or molecules
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Tight-binding models for ultracold atoms in optical lattices:general formulation and applications 被引量:1
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作者 Michele Modugno Julen Ibanez-Azpiroz Giulio Pettini 《Science China(Physics,Mechanics & Astronomy)》 SCIE EI CAS CSCD 2016年第6期1-23,共23页
Tight-binding models for ultracold atoms in optical lattices can be properly defined by using the concept of maximally localized Wannier functions for composite bands. The basic principles of this approach are reviewe... Tight-binding models for ultracold atoms in optical lattices can be properly defined by using the concept of maximally localized Wannier functions for composite bands. The basic principles of this approach are reviewed here, along with different applications to lattice potentials with two minima per unit cell, in one and two spatial dimensions. Two independent methods for computing the tight-binding coefficients—one ab initio, based on the maximally localized Wannier functions, the other through analytic expressions in terms of the energy spectrum—are considered. In the one dimensional case, where the tight-binding coefficients can be obtained by designing a specific gauge transformation, we consider both the case of quasi resonance between the two lowest bands, and that between s and p orbitals. In the latter case, the role of the Wannier functions in the derivation of an effective Dirac equation is also reviewed. Then, we consider the case of a two dimensional honeycomb potential, with particular emphasis on the Haldane model, its phase diagram, and the breakdown of the Peierls substitution. Tunable honeycomb lattices, characterized by movable Dirac points, are also considered. Finally, general considerations for dealing with the interaction terms are presented. 展开更多
关键词 ultracold atoms optical lattices tight-binding models Wannier functions effective Dirac equation honeycomb lattices
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A novel controllable double-layer magnetic lattice with cold atoms
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作者 恽旻 印建平 《Chinese Optics Letters》 SCIE EI CAS CSCD 2005年第3期125-128,共4页
We propose a novel array of controllable double-well magnetic microtraps for cold atoms by using an array of square current-carrying wires and two additional bias magnetic fields. Arrays of double layer magneto optica... We propose a novel array of controllable double-well magnetic microtraps for cold atoms by using an array of square current-carrying wires and two additional bias magnetic fields. Arrays of double layer magneto optical traps (MOTs) and Ioffe traps can be constructed by using same wire configurations and different currents and bias fields. Furthermore, the array of double-well magnetic microtraps can be continuously evolved as an array of single-well magnetic microtraps by reducing the currents in the wires. Our study shows that our scheme can be used to realize a controllable double-layer magnetic lattice with cold atoms, to form array of Bose-Einstein condensations (BECs), or to study atom interference, and so on. 展开更多
关键词 A novel controllable double-layer magnetic lattice with cold atoms MOT BEC
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