Your search keyword '"Zhou Xiao-Ji"' showing total 21 results

1. A diode laser spectrometer at 634 nm and absolute frequency measurements using optical frequency comb

Author

Zhou Tong, Yuan Jie, Qi Xiang-Hui, Zhou Da-Wei, Yi Lin, Chen Xu-Zong, Chen Wen-Lan, and Zhou Xiao-Ji

Subjects

Materials science, Spectrometer, business.industry, General Physics and Astronomy, Comb generator, Laser, Atomic clock, law.invention, Frequency comb, Optics, law, business, Hyperfine structure, Microwave, Caesium standard

Abstract

This paper reports that two identical external-cavity-diode-laser (ECDL) based spectrometers are constructed at 634 nm referencing on the hyperfine B?X transition R(80)8?4 of 127I2. The lasers are stabilized on the Doppler-free absorption signals using the third-harmonic detection technique. The instability of the stabilized laser is measured to be 2.8 ? 10?12 (after 1000 s) by counting the beat note between the two lasers. The absolute optical frequency of the transition is, for the first time, determined to be 472851936189.5 kHz by using an optical frequency comb referenced on the microwave caesium atomic clock. The uncertainty of the measurement is less than 4.9 kHz.

Published

2009

2. High Field Seeking State Atom Laser and Properties of Flux

Author

Zhou Xiao-Ji, Chen Xu-Zong, Yang Fan, Xia Lin, Xiong Wei, and Yi Lin

Subjects

Condensed Matter::Quantum Gases, Coupling, Materials science, Field (physics), Physics::Optics, General Physics and Astronomy, Flux, State (functional analysis), Laser, Electromagnetic radiation, law.invention, Atom laser, law, Physics::Atomic Physics, High field, Atomic physics

Abstract

We present an experimental study on the continuous atom laser. The experiments show that a high field seeking state atom laser with stable flux can be formed by increasing the strength of outcoupling before large density fluctuations appear. It is easy to obtain a long length or high speed output with this kind of atom laser.

Published

2008

3. Asymmetric Superradiant Scattering Patterns from Bose–Einstein Condensates

Author

Zhou Xiao-Ji, Yang Fan, Chen Xu-Zong, and Chen Yuan-Kai

Subjects

Condensed Matter::Quantum Gases, Physics, Condensed Matter::Other, Scattering, Physics::Optics, General Physics and Astronomy, Semiclassical physics, Superradiance, Optical field, law.invention, Pulse (physics), Coupling (physics), law, Quantum mechanics, Bose–Einstein condensation, Bose–Einstein condensate

Abstract

The asymmetric patterns of superradiance from Bose–Einstein condensates are studied for the spatially inhomogeneous pump pulse with the semiclassical Maxwell-Schrodinger equations. The coupling dynamics between the optical field and condensate in the strong pulse and a faded wing in the weak coupling regime are discussed, which not only explain the spatial effects in the process of superradiance, but also supply a new method to control its patterns.

Published

2008

4. Magic Wavelength for Caesium Transition Line 6 S 1/2 – 6 P 3/2

Author

Zhou Xiao-Ji, Chen Xu-Zong, Zheng Yu-Nan, and Chen Jing-Biao

Subjects

Zeeman effect, Materials science, business.industry, Magic (programming), Transition line, Physics::Optics, General Physics and Astronomy, chemistry.chemical_element, Trapping, Laser, Polarization (waves), law.invention, symbols.namesake, Wavelength, Optics, chemistry, law, Caesium, symbols, Physics::Atomic Physics, Atomic physics, business

Abstract

We investigate the magic wavelengths of the trapping laser for 6S1/2 – 6P3/2 of the Cs atom in a region where the optical shift between two different states can be eliminated. For fine levels and linear polarized laser they are 930.4 nm and 937.2 nm. The magic wavelengths range from 927.7 nm to 945.0 nm for circle-polarized perturbing laser. Effects of nuclear spin, the hyper-fine Zeeman levels, and the polarization of the light, which generate different magic wavelengths, are further discussed.

Published

2006

5. A Method for Determining the Phase Transition Point of the Bose–Einstein Condensation by Judging the Fitting Errors

Author

Xia Lin, MA Xiu-Quan, Chen Shuai, Chen Xu-Zong, Yang Fan, Zhou Xiao-Ji, and Wang Yi-Qiu

Subjects

Physics, Phase transition, Classical mechanics, law, Critical point (thermodynamics), Quantum critical point, General Physics and Astronomy, Statistical physics, Computer Science::Databases, Bose–Einstein condensate, law.invention

Abstract

In this paper, We demonstrate an approach to determine the phase transition point and critical temperature of Bose-Einstein condensation. During the fitting sequence of time-of-flight images, for just one picture we take four kinds of different calculations instead of only one. By calculating the quantitative least-square errors, which have always been neglected before, we find out that this value can act as a criterion to judge the status of atom clouds. Using this criterion, we can not only discriminate the status around the phase transition point, but can also find the critical point precisely. Also with this method, we can achieve the totally automatical running of calculating programs without human's judgments.

Published

2006

6. Observation of F = 2 Spinor Bose–Einstein Condensation in a Magnetic Field

Author

Chen Xu-Zong, Yang Fan, Wang Yi-Qiu, Chen Shuai, Zhou Xiao-Ji, Xia Lin, and MA Xiu-Quan

Subjects

Condensed Matter::Quantum Gases, Physics, SIMPLE (dark matter experiment), Spinor, Condensed matter physics, Condensed Matter::Other, Condensation, General Physics and Astronomy, law.invention, Magnetic field, Trap (computing), law, Quantum electrodynamics, Time difference, Magnetic trap, Physics::Atomic Physics, Bose–Einstein condensate

Abstract

Multiple-component Bose-Einstein condensation has been observed in a magnetic field generated by a controllable magnetic quadrupole-Ioffe-configuration trap. Different distributions of atoms in spinor Bose–Einstein condensates are created by changing the time difference of switching-off current in quadrupole-Ioffe-configuration coils and bias coils of the magnetic trap. A simple analysis is carried out to explain some phenomena of the experiment.

Published

2005

7. Effects of the Scattering Length on the Yrast Spectrum for a Two-Component Bose–Einstein Condensates

Author

Liu Kun, Chen Xu-Zong, Luo Bin, Yu Yang, and Zhou Xiao-Ji

Subjects

Condensed Matter::Quantum Gases, Physics, Condensed Matter::Other, Component (thermodynamics), Scattering, Yrast, Spectrum (functional analysis), General Physics and Astronomy, Scattering length, law.invention, law, Quantum mechanics, Energy shift, Bose–Einstein condensate, Eigenvalues and eigenvectors

Abstract

We study the energy eigenvalue and the yrast states for a harmonically two-component weak-interacting Bose–Einstein condensate (BEC) when the intra-species and interspecies scattering length are different. The energy shift for different energy eigenvalues related to intra- and interspecies scattering lengths is calculated with the perturbation method. The actual yrast spectrum is more complicated than that when intra-species and interspecies scattering length are equal. The degenerated features disappear and so do the perfect symmetric features.

Published

2004

8. Analysis of Runaway Evaporation and Bose–Einstein Condensation by Time-of-Flight Absorption Imaging

Author

Xia Lin, Yang Fan, Chen Xu-Zong, Zhou Xiao-Ji, Wang Yi-Qiu, Chen Shuai, and Sun Ya-Ya

Subjects

Condensed Matter::Quantum Gases, Physics, Condensed Matter::Other, Condensation, Evaporation, General Physics and Astronomy, law.invention, Time of flight, Ultracold atom, law, Magnetic trap, Free expansion, Atomic physics, Bose–Einstein condensate, Evaporative cooler

Abstract

The achievement of Bose–Einstein condensation (BEC) in our experiment is reported. The process of BEC formation is observed by detecting the image after free expansion, in which the effectiveness of runaway evaporative cooling is shown by measuring the optical density of the atom cloud. About 2×105 87Rb atoms in the |F = 2,mF = 2 state are condensed into the condensate. The ratio of axial-to-radial size of the condensate released from the magnetic trap is investigated in theory and experiment.

Published

2004

9. Optimization of the Loading Process of the QUIC Magnetic Trap for the Experiment of Bose–Einstein Condensation

Author

Yang Fan, Chen Shuai, Xia Lin, Chen Xu-Zong, Zhou Xiao-Ji, and Wang Yi-Qiu

Subjects

Condensed Matter::Quantum Gases, Physics, computer.internet_protocol, Condensation, General Physics and Astronomy, QUIC, Magnetic field, law.invention, Trap (computing), law, Scientific method, Magnetic trap, Laser cooling, Physics::Atomic Physics, Atomic physics, computer, Bose–Einstein condensate

Abstract

The magnetic quadrupole-Ioffe configuration (QUIC) trap in our Bose–Einstein condensation experiment is introduced. The magnetic trap loading process after laser cooling is analysed and the optimization of the loading process is studied experimentally. Calculation of the magnetic field explains the loss of the atoms during the loading process of the QUIC trap. The number of atoms loaded in the QUIC trap is increased by 40% after optimization in comparison with the normal loading process.

Published

2004

10. The Weak-Coupling of Bose-Einstein Condensates

Author

Zhou Xiao-Ji, Wang Yi-Qiu, Chen Xu-Zong, and Ma Zao-Yuan

Subjects

Condensed Matter::Quantum Gases, Physics, Coupling (physics), Physics and Astronomy (miscellaneous), Condensed Matter::Other, law, Atomic physics, Ring (chemistry), Laser, Bose–Einstein condensate, Phase diagram, law.invention

Abstract

The coherent characteristics of four trapped Bose-Einstein condensates (BEC) conjunct one by one in a ring shape which is divided by two far off-resonant lasers, are studied. Four coupled Gross-Pitaevskii equations are used to describe the dynamics of the system. Two kinds of self-trapping effects are discussed in the coupled BECs, and the phase diagrams for different initial conditions and different coupling strengths are discussed. This study can be used to determine interaction parameters between atoms in BEC.

Published

2003

11. The Study of the Phase of Bose–Einstein Condensate

Author

Zhou Xiao-Ji, LI Wei-Dong, and Wang Yi-Qiu

Subjects

Condensed Matter::Quantum Gases, Physics, Physics and Astronomy (miscellaneous), Bose gas, Condensed Matter::Other, Oscillation, Harmonic (mathematics), law.invention, Atom laser, law, Phase space, Phase (matter), Quantum mechanics, Atomic number, Bose–Einstein condensate

Abstract

We first propose to study the phase of Bose-Einstein condensate in the phase space. The mean value of the phase and the phase fluctuation of Bose-Einstein condensate are considered, and their explicit expressions are given with the Thomas-Fermi approximation. For a finite atom number, we find that the phase of condensate is determined by the oscillation frequency of the harmonic confining potential at certain time. The effects of the atom number and time on the phase of condensate are also discussed for the same kinds of atoms.

Published

2001

12. Relative Phase with the Overlap Region of Two Bose-Einstein Condensates

Author

Wang Yi-Qiu, LI Wei-Dong, Chen Xu-Zong, and Zhou Xiao-Ji

Subjects

Condensed Matter::Quantum Gases, Physics, Condensed Matter::Other, Isotropy, General Physics and Astronomy, Trapping, Interference (wave propagation), Molecular physics, law.invention, Spatial coherence, law, Quantum mechanics, Relative phase, Wave function, Bose–Einstein condensate

Abstract

We present an expression of the relative phase for two interacting Bose-Einstein condensates released from an isotropic trapping potential. We discuss the interference condition between condensates and the visibility of the interference pattern reflecting the interaction between the condensates.

Published

2002

13. Mode competition in superradiant scattering of matter waves

Author

Thibault Vogt, Zhou Xiao-Ji, Xu Xu, Lu Bo, Chen Xu-Zong, and Liu Xinxing

Subjects

Diffraction, Physics, Condensed Matter::Quantum Gases, Optical lattice, Condensed matter physics, Scattering, Atomic Physics (physics.atom-ph), Bragg's law, FOS: Physical sciences, Physics::Optics, Superradiance, Ray, Atomic and Molecular Physics, and Optics, Physics - Atomic Physics, symbols.namesake, Quantum Gases (cond-mat.quant-gas), symbols, Matter wave, Rayleigh scattering, Condensed Matter - Quantum Gases

Abstract

Superradiant Rayleigh scattering in a Bose gas released from an optical lattice is analyzed with incident light pumping at the Bragg angle for resonant light diffraction. We show competition between superradiance scattering into the Bragg mode and into end-fire modes clearly leads to suppression of the latter at even relatively low lattice depths. A quantum light-matter interaction model is proposed for qualitatively explaining this result., 6 pages, 6 figures, accepted by PRA

Published

2011

14. Laser driving of superradiant scattering from a Bose-Einstein condensate at variable incidence angle

Author

Chen Xu-Zong, Fang Zhen, Lu Bo, Zhou Xiao-Ji, and Thibault Vogt

Subjects

Condensed Matter::Quantum Gases, Physics, Scattering, media_common.quotation_subject, Physics::Optics, Laser pumping, Wave equation, Laser, Electromagnetic radiation, Asymmetry, Atomic and Molecular Physics, and Optics, law.invention, Optical pumping, law, Quantum mechanics, Atomic physics, Bose–Einstein condensate, media_common

Abstract

We study superradiant scattering from a Bose-Einstein condensate using a pump laser incident at variable angle and show the presence of asymmetrically populated scattering modes. Experimental data reveal that the direction of the pump laser plays a significant role in the formation of this asymmetry, a result which is in good agreement with numerical simulations based on coupled Maxwell-Schroedinger equations. Our study complements the gap of previous work in which the pump laser was applied only along the short axis or the long axis of a condensate, and extends our knowledge about cooperative scattering processes.

Published

2011

15. An Empirical Formula for the Measurement of Spatial Coherence of Trapped Bose Gases

Author

Wang Yi-Qiu, Zhang Jian-Wei, Chen Shuai, Chen Xu-Zong, and Zhou Xiao-Ji

Subjects

Condensed Matter::Quantum Gases, Physics, Spatial correlation, Bose gas, Component (thermodynamics), Quantum mechanics, Visibility (geometry), Thermal, Empirical formula, General Physics and Astronomy, Function (mathematics), Atomic physics, Interference (wave propagation)

Abstract

An empirical formula, which demonstrates the interference fringe visibility as a function of the slit separation and the temperature of thermal atoms, is obtained by analysing a recent experiment [Bloch et al. Nature 403 (2000) 166] that refers to the spatial correlation function of a trapped Bose gas below the critical temperature. We find that the decay rate of the coherence function for the non-condensed component is about two orders larger than that of the pure condensed component. The changes of the interference fringe visibility versus the falling time for different temperatures and slit separations are also discussed.

Published

2001

16. A Scheme for Realizing the Continuous Wave Atom Laser

Author

Zhou Xiao-Ji, Yang Dong-Hai, and Wang Yi-Qiu

Subjects

Condensed Matter::Quantum Gases, Coupling, Physics, Ideal (set theory), Condensed Matter::Other, Phase (waves), General Physics and Astronomy, Transition rate matrix, Trap (computing), Atom laser, Quantum mechanics, Scheme (mathematics), Continuous wave, Physics::Atomic Physics, Atomic physics

Abstract

We propose a scheme for realizing the long-term continuous output of an atom laser. In this scheme the cold atoms in several subsidiary Bose-Einstein condensates (BEC) will be coupled one by one in turn into one main BEC which serves for the continuous output of a coherent atomic beam. We discuss the process of the phase unification of the newly entered BEC atoms with the remaining atoms in the main BEC trap. An ideal dynamical equilibrium can be established when the transition rate of the uncondensed atoms transforming into the condensate and the decay rate of coupling output satisfy some conditions. The coupling method from the subsidiary BEC to the main BEC and the time rates of all different processes are considered.

Published

2000

17. The Mode Matching of Hybrid Trap by Frequency Calibration

Author

Niu Lin-Xiao, Zhou Xiao-Ji, Hu Dong, Wang Zhong-Kai, Chen Xu-Zong, and Zhang Jiahua

Subjects

Condensed Matter::Quantum Gases, Physics, business.industry, Oscillation, General Physics and Astronomy, Displacement (vector), Magnetic field, Computational physics, Trap (computing), Dipole, Optics, Position (vector), Upper hybrid oscillation, Physics::Atomic Physics, Quadrupole magnet, business

Abstract

We demonstrate a method to precisely calibrate the relative position between an optical dipole trap and a magnetic quadrupole potential in making a Bose-Einstein condensate via the hybrid trap. We measure the displacement by the dipole oscillation in the gravity direction, where the oscillation frequency can be adjusted through an additional bias magnetic field. One frequency corresponds to the case of the mode matching while two frequencies are not, and the great consistency between theoretical simulation and experimental results indicates its usefulness.

Published

2015

18. A Tunable Blue Light Source with Narrow Linewidth for Cold Atom Experiments

Author

Zhang Yin, QI Xiang-Hui, Chen Xu-Zong, Zhou Xiao-Ji, Zhai Yue-Yang, Fan Bo, and Yang Shi-Feng

Subjects

Blue laser, Materials science, Maximum power principle, business.industry, General Physics and Astronomy, Beat (acoustics), Laser, law.invention, Crystal, Laser linewidth, Optics, Ultracold atom, law, Optoelectronics, business, Blue light

Abstract

We present a 397-nm frequency-doubling system with a quasi-phase-matched KTP crystal (PPKTP) which features tunable, narrow linewidth, high power, and excellent mechanical stability. Using 20-mm and 30-mm-long PPKTP crystals, we establish two experimental setups based on different external cavity parameters. By testing the beat signal of these two lasers, the linewidth for the system is measured to be less than 2.5 MHz. The maximum power of blue light can be achieved up to 40 mW. With these performance characteristics, the constructed blue laser system is useful for applications in cold atom physics and precision measurements.

Published

2013

19. Phase-Dependent Effects in Stern–Gerlach Experiments

Author

Xu Xu and Zhou Xiao-Ji

Subjects

Physics, Angular momentum, Stern–Gerlach experiment, Spin states, law, Ultracold atom, Quantum mechanics, Phase (waves), General Physics and Astronomy, Fermion, Spin (physics), Bose–Einstein condensate, law.invention

Abstract

In the frame of quantum mechanics, we consider an ensemble of spin-½ neutral particles passing through a Stern–Gerlach apparatus and explore how their motions depend on the initial phase difference between two internal spin states. Assuming the particles moving along y-axis, due to the initial phase difference between spin states, they not only split along the longitudinal direction (z-axis) but also separate along the lateral direction (x-axis). The dependence of the lateral displacement on the initial phase difference reminds one of the picture of a quantum interference. This generalized interference provides an alternative approach to measuring the initial phase difference. The experimental realization with ultracold atoms or Bose–Einstein condensates is also discussed.

Published

2010

20. Microwave Atomic Clock in the Optical Lattice with Specific Frequency

Author

Chen Jing-Biao, Chen Xu-Zong, Wang Yi-Qiu, LI Jia-Ming, and Zhou Xiao-Ji

Subjects

Condensed Matter::Quantum Gases, Physics, Optical lattice, business.industry, Physics::Optics, General Physics and Astronomy, Laser, Atomic clock, law.invention, Computer Science::Hardware Architecture, Resonator, Wavelength, symbols.namesake, Optics, Stark effect, law, symbols, Physics::Atomic Physics, Atomic physics, business, Quantum clock, Microwave

Abstract

A scheme for a microwave atomic clock is proposed for Cs or Rb atoms trapped in a blue detuned optical lattice. The ac Stark shift of the clock transition due to a trapping laser is calculated. We analyze it at some specific laser wavelength. Compared with the case of the fountain clock, the cavity related shifts, the collision shift and the Doppler effect are eliminated or suppressed dramatically in an atomic lattice clock. By analyzing various sources of clock uncertainty, a microwave atomic lattice clock with a high accuracy and small volume is feasible.

Published

2009

21. Ultra-Stable Rubidium-Stabilized External-Cavity Diode Laser Based on the Modulation Transfer Spectroscopy Technique

Author

Zhou Tong, Chen Wen-Lan, Zhou Xiao-Ji, QI Xiang-Hui, Chen Xu-Zong, Zhou Da-Wei, Yi Lin, Xiao Qin, and Duan Jun

Subjects

Distributed feedback laser, Tunable diode laser absorption spectroscopy, Materials science, business.industry, Physics::Optics, General Physics and Astronomy, Optical modulation amplitude, Laser, law.invention, Optics, law, Laser diode rate equations, Ultrafast laser spectroscopy, Physics::Atomic Physics, Allan variance, business, Crystal oscillator

Abstract

We construct an ultra-stable external-cavity diode laser via modulation transfer spectroscopy referencing on a hyperfine component of the 87Rb D2 lines at 780nm. The Doppler-free dispersion-like modulation transfer signal is obtained with high signal-to-noise-ratio. The instability of the laser frequency is measured by beating with an optical frequency comb which is phase-locked to an ultra-stable oven controlled crystal oscillator. The Allan deviation is 3.9 × 10−13 at 1s averaging time and 9.8 × 10−14 at 90s averaging time.

Published

2009