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Acta Optica Sinica, Volume. 40, Issue 22, 2227001(2020)

Theoretical and Experimental Studies on Photon Statistics Properties of Squeezed Light Based on modified-HBT Interferometer

Yashuai Han1,2, Daohua Wu3,4, and Wenmei Guo1、*
Author Affiliations
  • 1College of Physics and Electronic Information, Anhui Normal University, Wuhu, Anhui 241000, China
  • 2Anhui Province Key Laboratory of Photo-Electronic Materials Science and Technology, Anhui Normal University, Wuhu, Anhui 241000, China
  • 3School of Electrical Engineering, Anhui Polytechnic University, Wuhu, Anhui 241000, China
  • 4Key Laboratory of Advanced Perception and Intelligent Control of High-End Equipment, Ministry of Education, Anhui Polytechnic University, Wuhu, Anhui 241000, China
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    [4] Kok P, Munro W J, Nemoto K, Ralph T C et al. -01-17)[ 2020-02-13](2006). https://www.researchgate.net/profile/William_Munro/publication/2197173_Review_article_Linear_optical_quantum_computing/links/00b7d521e2cd38b79f000000/Review-article-Linear-optical-quantum-computing.pdf.

    [5] Vahlbruch H, Mehmet M, Danzmann K et al. Detection of 15 dB squeezed states of light and their application for the absolute calibration of photoelectric quantum efficiency[J]. Physical Review Letters, 117, 110801(2016).

    [6] Yang W H, Shi S P, Wang Y J et al. Detection of stably bright squeezed light with the quantum noise reduction of 12.6 dB by mutually compensating the phase fluctuations[J]. Optics Letters, 42, 4553-4556(2017).

    [7] Sun X C, Wang Y J, Tian L et al. Detection of 13.8 dB squeezed vacuum states by optimizing the interference efficiency and gain of balanced homodyne detection[J]. Chinese Optics Letters, 17, 072701(2019). http://www.opticsjournal.net/Articles/Abstract?aid=OJ571f72449987195b

    [8] Han Y S, Wen X, He J et al. Improvement of vacuum squeezing resonant on the rubidium D1 line at 795 nm[J]. Optics Express, 24, 2350-2359(2016).

    [9] Zhou Y Y, Jia X J, Li F et al. Experimental generation of 8.4 dB entangled state with an optical cavity involving a wedged type-II nonlinear crystal[J]. Optics Express, 23, 4952-4959(2015).

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    [14] Koashi M, Kono K, Hirano T et al. Photon antibunching in pulsed squeezed light generated via parametric amplification[J]. Physical Review Letters, 71, 1164-1167(1993).

    [15] Andersen U L. Neergaard-Nielsen J S, van Loock P, et al. Hybrid discrete- and continuous-variable quantum information[J]. Nature Physics, 11, 713-719(2015).

    [16] Takeda S, Mizuta T, Fuwa M et al. Deterministic quantum teleportation of photonic quantum bits by a hybrid technique[J]. Nature, 500, 315-318(2013).

    [17] Zavatta A, Viciani S, Bellini M. Quantum-to-classical transition with single-photon-added coherent states of light[J]. Science, 306, 660-662(2004).

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    [20] Ou Z Y. Multi-photon quantum interference[M]. Boston: Springer(2007).

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    Yashuai Han, Daohua Wu, Wenmei Guo. Theoretical and Experimental Studies on Photon Statistics Properties of Squeezed Light Based on modified-HBT Interferometer[J]. Acta Optica Sinica, 2020, 40(22): 2227001

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    Paper Information

    Category: Quantum Optics

    Received: Jun. 11, 2020

    Accepted: Jul. 24, 2020

    Published Online: Oct. 16, 2020

    The Author Email: Wenmei Guo (guowm515@sxu.edu.cn)

    DOI:10.3788/AOS202040.2227001

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology