Jinyin Wan scite author profile

Jinyin Wan

3Publications

50Citation Statements Received

32Citation Statements Given

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Affiliations

Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Huazhong University of Science and Technology

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Scheme for a compact cold-atom clock based on diffuse laser cooling in a cylindrical cavity

et al. 2015

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We present a new scheme of compact Rubidium cold-atom clock which performs the diffuse light cooling, the microwave interrogation and the detection of the clock signal in a cylindrical microwave cavity. The diffuse light is produced by the reflection of the laser light at the inner surface of the microwave cavity. The pattern of injected laser beams is specially designed to make most of the cold atoms accumulate in the center of the microwave cavity. The microwave interrogation of cold atoms in the cavity leads to Ramsey fringes whose line-width is 24.5 Hz and the contrast of 95.6% when the free evolution time is 20 ms. The frequency stability of 7.3 × 10 −13 τ −1/2 has been achieved recently. The scheme of this physical package can largely reduce the complexity of the cold atom clock, and increase the performance of the clock.

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Magnon squeezing states in a ferromagnet

et al. 2006

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Observation of Faraday Rotation in Cold Atoms in an Integrating Sphere

Zheng

Cheng

Meng

et al. 2014

Chinese Phys. Lett.

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The Faraday rotation of weak linearly polarized probe light is observed as it passes through a sample of cold 87 Rb atoms prepared by diffused light in an integrating sphere. The rotation angle of the probe light-polarization as functions of laser intensity, detuning and biased magnetic field is measured. A Ramsey fringe with a linewidth of 35 Hz and contrast up to 92% is demonstrated. This method has potential applications in improving the performance of atomic clocks with cold atoms.

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Jinyin Wan

Scheme for a compact cold-atom clock based on diffuse laser cooling in a cylindrical cavity

Magnon squeezing states in a ferromagnet

Observation of Faraday Rotation in Cold Atoms in an Integrating Sphere

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