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Hot Rubidium Mixing

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Four-wave-mixing stopped light in hot atomic rubidium

2009-1-25  We report on a pulse storage scheme in hot atomic rubidium vapour, in which a four-wave-mixing normal mode is stored using a double-Λ configuration. The entire (broadened) waveform of

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(PDF) Slow light via four-wave mixing in a hot rubidium

Slow light via four-wave mixing in a hot rubidium vapour. View the table of contents for this issue, or go to the journal homepage for more. 2013 Chinese Phys. B 22 114203

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Slow light via four-wave mixing in a hot rubidium vapour

2020-4-30  rubidium vapor Gang Wang, Wei Zhou, Hong-Li Chen et al.-Multi-pathway all-optical wavelength conversion switching and routing via four-and six-wave mixing in hot rubidium vapour Gang Wang, Hong-Li Chen, Yi Qu et al.-Two-Photon Atomic Coherence Effect of Transition 5 S 1/2 5 P 3/2 4 D 5/2 (4 D 3/2) of 85 Rb atoms Ding Dong-Sheng, Zhou Zhi-Yuan

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Quantum optical devices based on four-wave mixing in

Citation: Fang Y M, Qin Z Z, Wang H L, et al. Quantum optical devices base d on four-wav e mixing in hot rubidium vapor. Sci China-Phys Mec h Astron, 2015, 58: 064201,

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Multi-pathway all-optical wavelength conversion

mixing in hot rubidium vapour To cite this article: Gang Wang et al 2014 Laser Phys. 24 035201 View the article online for updates and enhancements. Related content Efficient light storage with reduced energy loss via nonlinear compensation in rubidium vapor Gang Wang, Wei Zhou, Hong-Li Chen et al.-Interplay of Coexisting Odd-Order Wave

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Phys. Rev. A 95, 023803 (2017) Experimental generation

2017-2-2  Experimental generation of quadruple quantum-correlated beams from hot rubidium vapor by cascaded four-wave mixing using spatial multiplexing Leiming Cao, Jian Qi, Jinjian Du, and Jietai Jing Phys. Rev. A 95, 023803 Published 2 February 2017

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Realization of Nonlinear Interferometer using the Four

Realization of nonlinear interferometer and quantum correlated multiple beams using two four wave mixing amplifier in hot rubidium vapor. Jietai Jing, Zhongzhong Qin, Jia Kong, Hailong Wang, F. Hudelist, Z. Y. Ou, and Weiping Zhang LTu4J.4 Laser Science (LS) 2012

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Phase Modulation in Rydberg Dressed Multi-Wave Mixing

2015-6-8  We study the enhancement and suppression of different multi-waving mixing (MWM) processes in a Rydberg-EIT rubidium vapor system both theoretically and

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Bright narrowband biphoton generation from a hot

2017-4-17  We demonstrate the generation of high-quality narrowband biphotons from a Doppler-broadened hot rubidium atomic vapor cell. Choosing a double-Λ atomic energy level scheme for optimizing both spontaneous four-wave mixing nonlinear parametric interaction and electromagnetically induced transparency (EIT), we achieve a biphoton spectral brightness as high as 14 000 s−1 MHz−1.

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Quantum optical devices based on four-wave mixing in

2015-2-7  In this , we briefly review the recent experimental progresses in quantum optics based on four-wave mixing (FWM) processes in hot rubidium vapor, particularly our two recent experiments in quantum information. We have experimentally produced strong quantum correlations between three bright beams generated by two cascaded FWM processes. The intensity difference squeezing with

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SCIENCE CHINA Physics, MechanicsAstronomy

Citation: Fang Y M, Qin Z Z, Wang H L, et al. Quantum optical devices based on four-wave mixing in hot rubidium vapor. Sci China-Phys Mech Astron, Sci China-Phys Mech Astron, 2015, 58: 064201, doi

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Slow light via four-wave mixing in a hot rubidium vapour

2020-4-30  rubidium vapor Gang Wang, Wei Zhou, Hong-Li Chen et al.-Multi-pathway all-optical wavelength conversion switching and routing via four-and six-wave mixing in hot rubidium vapour Gang Wang, Hong-Li Chen, Yi Qu et al.-Two-Photon Atomic Coherence Effect of Transition 5 S 1/2 5 P 3/2 4 D 5/2 (4 D 3/2) of 85 Rb atoms Ding Dong-Sheng, Zhou Zhi-Yuan

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(PDF) Slow light via four-wave mixing in a hot rubidium

Slow light via four-wave mixing in a hot rubidium vapour. View the table of contents for this issue, or go to the journal homepage for more. 2013 Chinese Phys. B 22 114203

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Phys. Rev. A 95, 023803 (2017) Experimental generation

2017-2-2  Experimental generation of quadruple quantum-correlated beams from hot rubidium vapor by cascaded four-wave mixing using spatial multiplexing Leiming Cao, Jian Qi, Jinjian Du, and Jietai Jing Phys. Rev. A 95, 023803 Published 2 February 2017

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Enhanced squeezing of four-wave mixing by phase

2019-12-20  Camacho R M, Vudyasetu P K and Howell J C 2009 Four-wave-mixing stopped light in hot atomic rubidium vapor Nat. Photon. 3 103. Crossref Google Scholar. Marino A M et al 2009 Tunable delay of Einstein–Podolsky–Rosen entanglement Nature 457 859. Crossref Google Scholar.

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Multi-spatial-mode single-beam quadrature squeezed

Multi-spatial-mode single-beam quadrature squeezed states of light from four-wave mixing in hot rubidium vapor Neil Corzo,1,2,∗ Alberto M. Marino,1 Kevin M. Jones,3 and Paul D. Lett1 1Joint Quantum Institute, National Institute of Standards and Technology and the University of

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吴金辉-量子科学中心 nenu.edu.cn

2021-11-23  112. Multi-pathway all-optical wavelength conversion switching and routing via four-wave and six-wave mixing in hot rubidium vapor Gang Wang, Hong-Li Chen, Yi Qu, Jiao Wang, Yan Xue, Jin-Hui Wu, Mu-Yao Liu, Yan-Hui Ren, and Jin-Yue Gao Laser Physics

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忻俊 个人主页 HDU

Zhang and Jietai Jing*, Quantum optical devices based on four-wave mixing in hot rubidium vapor, Science China Physics, Mechanics and Astronomy 58, 064201 (2015). Unpublished: [1] Jun Xin, Sijin Li and Jietai Jing*, Tripartite Entanglement [2]

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(PDF) Slow light via four-wave mixing in a hot rubidium

Slow light via four-wave mixing in a hot rubidium vapour. View the table of contents for this issue, or go to the journal homepage for more. 2013 Chinese Phys. B 22 114203

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Slow light via four-wave mixing in a hot rubidium vapour

2020-4-30  rubidium vapor Gang Wang, Wei Zhou, Hong-Li Chen et al.-Multi-pathway all-optical wavelength conversion switching and routing via four-and six-wave mixing in hot rubidium vapour Gang Wang, Hong-Li Chen, Yi Qu et al.-Two-Photon Atomic Coherence Effect of Transition 5 S 1/2 5 P 3/2 4 D 5/2 (4 D 3/2) of 85 Rb atoms Ding Dong-Sheng, Zhou Zhi-Yuan

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SCIENCE CHINA Physics, MechanicsAstronomy

Citation: Fang Y M, Qin Z Z, Wang H L, et al. Quantum optical devices based on four-wave mixing in hot rubidium vapor. Sci China-Phys Mech Astron, Sci China-Phys Mech Astron, 2015, 58: 064201, doi

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Suppression of four-wave mixing in hot rubidium vapor

2020-8-7  Suppression of four-wave mixing in hot rubidium vapor using ladder scheme Raman absorption Nikunj Prajapati College of William and Mary, [email protected] Gleb V. Romanov College of William and Mary, [email protected] Irina Novikova College of William and Mary, [email protected]

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Phys. Rev. A 95, 023803 (2017) Experimental generation

2017-2-2  Experimental generation of quadruple quantum-correlated beams from hot rubidium vapor by cascaded four-wave mixing using spatial multiplexing Leiming Cao, Jian Qi, Jinjian Du, and Jietai Jing Phys. Rev. A 95, 023803 Published 2 February 2017

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Squeezed light and entangled images from four-wave

Squeezed light and entangled images from four-wave-mixing in hot rubidium vapor. Entangled multi-spatial-mode fields have interesting applications in quantum information, such as parallel quantum information protocols, quantum computing, and quantum imaging. We study the use of a nondegenerate four-wave mixing process in rubidium vapor at 795

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Enhanced squeezing of four-wave mixing by phase

2019-12-20  Camacho R M, Vudyasetu P K and Howell J C 2009 Four-wave-mixing stopped light in hot atomic rubidium vapor Nat. Photon. 3 103. Crossref Google Scholar. Marino A M et al 2009 Tunable delay of Einstein–Podolsky–Rosen entanglement Nature 457 859. Crossref Google Scholar.

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Multi-pathway all-optical wavelength conversion switching

We report an experimental demonstration of multi-pathway all-optical switching and routing via efficient wavelength conversion in hot rubidium vapour. We apply a coupling field and a control field to drive both 87 Rb and 85 Rb isotope atoms into either the double-Λ or triple-Λ configuration when a probe field is scanned across the D1 line of the rubidium atom.

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吴金辉-量子科学中心 nenu.edu.cn

2021-11-23  112. Multi-pathway all-optical wavelength conversion switching and routing via four-wave and six-wave mixing in hot rubidium vapor Gang Wang, Hong-Li Chen, Yi Qu, Jiao Wang, Yan Xue, Jin-Hui Wu, Mu-Yao Liu, Yan-Hui Ren, and Jin-Yue Gao Laser Physics

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专家介绍 USTC

14) Image transfer through two sequential four-wave-mixing processes in hot atomic vapor Phys. Rev. A. 2012 85, 053815 (2012) 15) Protecting single-photon entangled state from photon loss with noiseless linear amplification Phys. Rev. A 2012 86

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Hot Rubidium Mixing