Search

Your search keyword '"Cui-Li Cui"' showing total 16 results
Start Over Author "Cui-Li Cui" Language english
16 results on '"Cui-Li Cui"'

1. The influence of spontaneously generated coherence on atom-photon entanglement in a Λ-type system with an incoherent pump

Author

Cui-Li Cui, Dong Yan, Yan Zhang, Qian-Qian Bao, and Xin Yang

Subjects
Physics, Photon, Electromagnetically induced transparency, QC1-999, General Physics and Astronomy, Quantum entanglement, Von Neumann entropy, electromagnetically induced transparency, spontaneously generated coherence, Photon entanglement, Quantum mechanics, Atom, Spontaneous emission, entanglement, Quantum, quantum entropy
Abstract

Owing to interference induced by spontaneous emission, the density-matrix equations in a three-level Λ-type system have an additional coherence term, which plays a critical role in modulating the inversionless gain and electromagnetically induced transparency effect. In addition, it is shown that spontaneously generated coherence (SGC) has an effect on the entanglement between an atom and a photon of the coupling laser field by calculating the degree of entanglement (DEM) of the atomic system. In this paper, we investigate the influence of the SGC effect on atom-photon entanglement in a Λ-type system, which generally remains a high entangled state. When an incoherent pump source is introduced, we find that the SGC effect could exert considerable influence on the atom reduced entropy under certain conditions for both transient and steady states. More interestingly, such an incoherent pump field could actively affect the short-time dynamic behaviors of the transient quantum entangled state at a certain range of pump rate as a typical coherent case.

Published
2014

2. Population transfer and quantum entanglement implemented in cold atoms involving two Rydberg states via an adiabatic passage.

Author

Cui-Li Cui, Xue-Dong Tian, Yi-Mou Liu, and Jin-Hui Wu

Subjects
*QUANTUM entanglement, *RYDBERG states, *ADIABATIC processes, *DIPOLE interactions, *TWO-photon transition probability, *ELECTRONIC excitation
Abstract

We study the adiabatic passage for a pair of interacting cold atoms driven into the ladder configuration with one ground state and two Rydberg states. We find, with proper single-photon and two-photon detunings, that it is viable to (i) achieve efficient population transfer from the ground state to either Rydberg state by fully overcoming the dipole blockade effect and (ii) implement maximal entangled states by partially overcoming the dipole blockade effect. These entangled atomic states are very stable and have purities and fidelities approaching 100%, among which one is of particular interest since it involves the simultaneous excitation of two different Rydberg states. [ABSTRACT FROM AUTHOR]

Published
2015
Full Text
View/download PDF

7. Coherent population transfer and quantum entanglement generation involving a Rydberg state by stimulated Raman adiabatic passage.

Author

Dong Yan, Cui-Li Cui, Mei Zhang, and Jin-Hui Wu

Subjects
*ATOMS, *RYDBERG states, *ATOMIC spectra, *ENERGY levels (Quantum mechanics), *VAN der Waals forces
Abstract

We study a dilute sample of cold atoms to achieve efficient population transfer from a ground state to a Rydberg state. This sample is approximately divided into many independent microspheres containing only two atoms. Each pair of atoms in a microsphere may become quantum correlated via the dipole-dipole interaction characterized by a van der Waals potential. Our numerical results show that, by modulating detunings of a pump pulse and a Stokes pulse applied in the counterintuitive order, we can drive the dilute sample either into the blockade regime or into the antiblockade regime. In the blockade regime, only one atom is allowed to be coherently transferred into the Rydberg state in a microsphere, which then results in a maximal entangled state. In the antiblockade regime, however, both atoms in a microsphere can be efficiently excited into the Rydberg state, which is not accompanied by quantum entanglement. A second maximal entangled state may also be generated if we work between the blockade regime and the antiblockade regime. Note that the existence of a quasidark state is essential for exciting both atoms in a microsphere into the Rydberg state when the van der Waals potential is nonzero. [ABSTRACT FROM AUTHOR]

Published
2011
Full Text
View/download PDF

9. Tunable multistability and nonuniform phases in a dimerized two-dimensional Rydberg lattice.

Author

Han-Xiao Zhang, Chu-Hui Fan, Cui-Li Cui, and Jin-Hui Wu

Subjects
RYDBERG states, OPTICAL bistability, PHASE diagrams, STRETCH (Physiology), OPTICAL lattices
Abstract

We study the multistability of fixed points for a dimerized system of Rydberg atoms driven by two laser fields and trapped in a two-dimensional (2D) square lattice. For identical driving fields, the fixed points of this system exhibit stable uniform, unstable uniform, stable nonuniform, or oscillating nonuniform phases in the presence of a bistable region. For different driving fields, however, all (stable, unstable, or oscillating) phases become nonuniform instead, which then results in two islets isolated from the mainland of Rydberg excitation. We also show that a tristable region may stretch out from the (nonuniform) bistable region near the islets, indicating that a richer phase diagram can be attained by tuning the Rabi frequencies and/or detunings of the driving fields. Last but not least, the fixed points can adiabatically evolve from the islets to the mainland but can not inversely evolve from the mainland to the islets. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

10. Entanglement manipulation via Coulomb interaction in an optomechanical cavity assisted by two-level cold atoms.

Author

Jing Wang, Xue-Dong Tian, Yi-Mou Liu, Cui-Li Cui, and Jin-Hui Wu

Abstract

We investigate the stationary entanglement properties in a hybrid system consisting of an optical cavity, a mechanical resonator, a charged object, and an atomic ensemble. Numerical results show that this hybrid system exhibits three kinds of controllable bipartite entanglements in an experimentally accessible parameter regime with the help of the charged object. More importantly, it is viable to enhance on demand each bipartite entanglement at the expense of reducing others by modulating the Coulomb coupling strength. Last but not least, these bipartite entanglements seem more robust against on the environmental temperature for the positive Coulomb interaction. [ABSTRACT FROM AUTHOR]

Published
2018
Full Text
View/download PDF

11. Dynamically induced two-color nonreciprocity in a tripod system of a moving atomic lattice.

Author

Liu Yang, Yan Zhang, Xiao-Bo Yan, Ying Sheng, Cui-Li Cui, and Jin-Hui Wu

Subjects
*OPTICAL lattices, *OPTOELECTRONICS, *OPTICAL transmitters, *PHOTONIC band gap structures, *MAGNETIC coupling
Abstract

We study the two-color nonreciprocal effects of transmission and reflection in cold atoms driven into the tripod configuration and confined in a moving optical lattice. Our numerical results show that a very high contrast of the forward-backward transmission up to around 92% (reflection up to around 85%) is observable near the sharp edges of two tunable photonic band gaps at lattice speeds of several meters per second. Such two-color optical nonreciprocity is attained in fact by breaking the time-reversal symmetry with asymmetric Doppler shifts and can be dynamically manipulated by varying the driving and coupling field detunings, the probe pulse length, the atomic lattice velocity, etc. [ABSTRACT FROM AUTHOR]

Published
2015
Full Text
View/download PDF

12. Nonlinear modifications of photon correlations via controlled single and double Rydberg blockade.

Author

Yi-Mou Liu, Xue-Dong Tian, Dong Yan, Yan Zhang, Cui-Li Cui, and Jin-Hui Wu

Subjects
*NONLINEAR functions, *PHOTON correlation, *RYDBERG states, *TRANSPARENCY (Optics), *SINGLE photon generation, *OPTICAL polarization
Abstract

We study the optical response of cold rubidium atoms driven into the four-level Y configuration exhibiting two high Rydberg levels in the regime of electromagnetically induced transparency (EIT). Atoms excited to either Rydberg level interact with each other just via self-blockade potentials (I) or also via cross blockade potentials (II). Numerical results show a few interesting quantum phenomena on the transmitted properties of a weak probe field owing to controlled single and double Rydberg blockade. In case (I), it is viable to switch between single-photon outputs with vanishing (invariable) two-photon (three-photon) correlation and photon-pair outputs with vanishing (invariable) three-photon (two-photon) correlation. Such output switch can be easily done by modulating frequencies and intensities of two strong coupling fields to create a degenerate EIT window or two separated EIT windows. In case (II), we find that two-photon and three-photon correlations decrease together at a degenerate EIT window center while increasing together between two separated EIT windows. Such consistent changes are observed because both correlations are modified by the identical polarizability degradation though depending on single and double Rydberg blockade, respectively. [ABSTRACT FROM AUTHOR]

Published
2015
Full Text
View/download PDF

13. Electromagnetically induced transparency with cold Rydberg atoms: Superatom model beyond the weak-probe approximation.

Author

Yi-Mou Liu, Dong Yan, Xue-Dong Tian, Cui-Li Cui, and Jin-Hui Wu

Subjects
*RYDBERG states, *ENERGY levels (Quantum mechanics), *ATOMIC spectra, *LIGHT intensity, *PHOTONS
Abstract

We present an improved superatom model for examining nonlinear optical responses of cold Rydberg atoms in the regime of electromagnetically induced transparency (EIT). By going beyond the weak-probe approximation, we find that several higher-order collective states should be included to correctly describe the coherent Rydberg excitation of superatoms. Otherwise, numerical results based on the simple ladder system of superatoms will contribute wrong predictions on light intensity and photon correlation of the transmitted probe field. In particular, a great photon-bunching effect will be improperly expected somewhere out of the EIT window in one dilute atomic sample. The essence of this improved superatom model lies in that it can provide reliable predictions on the nonlinear Rydberg-EIT phenomena even in dense atomic samples and may be extended to realize lossless conditional light interactions in appropriate multilevel systems exhibiting dipole blockade. [ABSTRACT FROM AUTHOR]

Published
2014
Full Text
View/download PDF

14. Dynamically controlled two-color photonic band gaps via balanced four-wave mixing in one-dimensional cold atomic lattices.

Author

Hong Yang, Liu Yang, Xiao-Chang Wang, Cui-Li Cui, Yan Zhang, and Jin-Hui Wu

Subjects
*FOUR-wave mixing, *PHOTONIC band gap structures, *ULTRACOLD molecules, *OPTICAL lattices, *PHOTONS, *BRAGG gratings, *NONLINEAR optics
Abstract

We study an ensemble of cold atoms driven to the four-level double-A configuration and trapped in the one-dimensional optical lattices for achieving dynamically controlled photonic band gaps (PBGs) via the balanced four-wave mixing interaction. Numerical results show that a pair of PBGs characterized by high platforms of probe reflectivities and reduced density of photonic states are established, simultaneously, on both probe transitions in one symmetric driving scheme. Such two-color PBGs can be easily manipulated in position and width by modulating, e.g., the balanced Rabi frequencies of two coupling fields and the Gaussian widths of atomic density distributions, to change the equal probe detunings fulfilling both Bragg conditions. Each two-color PBG as predicted in the coherent atomic lattices may be explored to attain robust light entanglement, even for single-probe photons, via an efficient frequency conversion during the nonlinearly correlated reflection. [ABSTRACT FROM AUTHOR]

Published
2013
Full Text
View/download PDF

15. Coherent generation and dynamic manipulation of double stationary light pulses in a five-level double-tripod system of cold atoms.

Author

Qian-Qian Bao, Xiao-Hang Zhang, Jun-Yan Gao, Zhang Yan, Cui-Li Cui, and Jin-Hui Wu

Subjects
*LASER beams, *ATOMS, *QUANTUM field theory, *WAVE packets, *COHERENCE (Optics)
Abstract

We study a five-level double-tripod system of cold atoms for efficiently manipulating the dynamic propagation and evolution of a quantum probe field by modulating four classical control fields. Our numerical results show that it is viable to transform the quantum probe field into a pair of two-color stationary light pulses mutually coupled through two wave packets of atomic spin coherence. The pair of stationary light pulses can be released either from the sample entrance and exit synchronously or just from the sample exit with a controlled time delay. In addition, the two-color stationary light pulses are immune to the fast decay originating from the higher-order Fourier components of atomic spin and optical coherence, and may exhibit the quantum limited beating signals with their characteristic frequency determined by detunings of the four classical control fields. These results could be explored to design novel photonic devices, such as optical routing, beam splitter, and beat generator, for manipulating a quantum light field. [ABSTRACT FROM AUTHOR]

Published
2011
Full Text
View/download PDF

16. Triple photonic band-gap structure dynamically induced in the presence of spontaneously generated coherence.

Author

Jin-Wei Gao, Qian-Qian Bao, Ren-Gang Wan, Cui-Li Cui, and Jin-Hui Wu

Subjects
*PHOTONICS, *RESONANCE, *COHERENCE (Optics), *WIDE gap semiconductors, *MOLECULAR probes
Abstract

We study a cold atomic sample coherently driven into the five-level triple-Λ configuration for attaining a dynamically controlled triple photonic band-gap structure. Our numerical calculations show that three photonic band gaps with homogeneous reflectivities up to 92% can be induced on demand around the probe resonance by a standing-wave driving field in the presence of spontaneously generated coherence. All these photonic band gaps are severely malformed with probe reflectivities declining rapidly to very low values when spontaneously generated coherence is gradually weakened. The triple photonic band-gap structure can also be attained in a five-level chain-Λ system of cold atoms in the absence of spontaneously generated coherence, which however requires two additional traveling-wave fields to couple relevant levels. [ABSTRACT FROM AUTHOR]

Published
2011
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results