{"id":14,"date":"2020-01-28T13:50:30","date_gmt":"2020-01-28T04:50:30","guid":{"rendered":"http:\/\/www.quant-ph.cst.nihon-u.ac.jp\/qog-nu\/?page_id=14"},"modified":"2024-02-05T19:15:16","modified_gmt":"2024-02-05T10:15:16","slug":"achievement","status":"publish","type":"page","link":"https:\/\/www.quant-ph.cst.nihon-u.ac.jp\/qog-nu\/?page_id=14","title":{"rendered":"ACHIEVEMENT"},"content":{"rendered":"\n
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\u8ad6\u6587\uff08Papers\uff09<\/h4>\n
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  1. N. Namekata, N. Kobayashi, K. Nomura, T. Sako, N. Takata, and S. Inoue, \u201dQuantum optical tomography based on time-resolved and mode-selective single-photon detection by femtosecond up-conversion,” Sci. Rep. Vol. 13, 21080 (2023). DOI:\u00a0 https:\/\/doi.org\/10.1038\/s41598-023-48270-7<\/li>\n
  2. K. Hamashima, D. Wu, S. Kishimoto, S. Inoue, and S. Ohnuki, \u201cSelectivity of dominant surface plasmon polariton modes using thin metal waveguides with grating structures,\u201d Jpn. J. of Appl. Phys., vol. 61, pp. 082002-1\u2013082002-7, (2022).<\/span><\/li>\n
  3. \u4e09\u679d\u7f8e\u6ce2,\u5cb8\u672c\u8aa0\u4e5f, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u5927\u8cab\u9032\u4e00\u90ce, \u201c2\u6b21\u5143\u30d5\u30fc\u30ea\u30a8\u5909\u63db\u3092\u7528\u3044\u305f\u6563\u4e71\u5149\u30d1\u30eb\u30b9\u306e\u4f1d\u642c\u65b9\u5411\u89e3\u6790,\u201d \u4fe1\u5b66\u6280\u5831, vol. 122, no. 120, EST2022-35, pp. 127\u2013131, (20<\/span>22).<\/li>\n
  4. \u4e09\u679d\u7f8e\u6ce2, \u67f4\u57a3\u88d5\u7d00, \u5cb8\u672c\u8aa0\u4e5f, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u5927\u8cab\u9032\u4e00\u90ce, \u201c\u6955\u5186\u67f1\u5217\u30e2\u30c7\u30eb\u306b\u304a\u3051\u308b\u591a\u91cd\u53cd\u5c04\u5149\u306e\u89e3\u6790,\u201d \u4fe1\u5b66\u6280\u5831, vol. 121, no. 358, EST2021-88, pp. 154-158, (2022).<\/li>\n
  5. N. Namekata, D. Wu, H. Hagihara, S. Ohnuki, D. Fukuda, and S. Inoue, “Continuous quantum walk in a 1-dimensional plasmonic lattice structure based on metal strip waveguides,” Opt. Express Vol. 29 (16), pp. 24899-24909 (2021).<\/li>\n
  6. A. Tada, N. Namekata, and S. Inoue, “Saturated detection efficiency of single-photon detector based on an InGaAs\/InP single-photon avalanche diode gated with a large-amplitude sinusoidal voltage,” Jpn. J. Appl. Phys. Vol. 59, No. 7, 072004 (2020).<\/li>\n
  7. \u5449\u8fea, \u6d5c\u5cf6\u529f, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u5927\u8cab\u9032\u4e00\u90ce, \u201c\u8907\u7d20\u5468\u6ce2\u6570\u9818\u57df\u6709\u9650\u5dee\u5206\u6cd5\u306b\u3088\u308b\u30d7\u30e9\u30ba\u30e2\u30cb\u30c3\u30af\u5c0e\u6ce2\u8def\u306e\u8a2d\u8a08\u53ca\u3073\u7279\u6027\u691c\u8a3c,\u201d\u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a\u8ad6\u6587\u8a8cC Vol. J103-C, No. 2, pp.69-77 (2020).<\/li>\n
  8. H. Hagihara, N. Namekata, K. Yokota, and S. Inoue “Near infrared single-photon imaging\u3000based on compressive sensing with a sinusoidally gated InGaAs\/InP single-photon avalanche diode”, Proc. SPIE 11295, Advanced Optical Techniques for Quantum Information, Sensing, and Metrology, 112950R (2020).<\/li>\n
  9. \u5449\u8fea, \u6d5c\u5cf6\u529f, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u5927\u8cab\u9032\u4e00\u90ce, \u201c\u8907\u7d20\u5468\u6ce2\u6570\u9818\u57df\u6709\u9650\u5dee\u5206\u6cd5\u306b\u3088\u308b\u30d7\u30e9\u30ba\u30e2\u30cb\u30c3\u30af\u5c0e\u6ce2\u8def\u306e\u8a2d\u8a08\u53ca\u3073\u7279\u6027\u691c\u8a3c,\u201d\u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a\u8ad6\u6587\u8a8cC Vol. J103-C, No. 2, pp.69-77 (2020).<\/li>\n
  10. R. Kobayashi, K. Hattori, S. Inoue, and D. Fukuda, \u201cDevelopment of fast response Titanium-Gold bilayer optical TES with optical fiber self-aligment structure,\u201d to be published in IEEE. Trans. Appl. Supercond. Vol. 29, No. 5, pp.1 \u2013 5 (2019).<\/li>\n
  11. K. Niizeki, K. Ikeda, M. Zheng, X. Xie, K. Okamura, N. Takei, N. Namekata, S. Inoue, H. Kosaka and T. Horikiri, \u201cUltrabright narrow-band telecom two-photon source for long-distance quantum communication,\u201d Appl. Phys. Express, Vol. 11, No. 4, 042801 (2018).<\/li>\n
  12. T. Sakaidani, R. Kobayashi, N. Namekata, G. Fujii, D. Fukuda, and S. Inoue, \u201cInvestigation of Third-Order Dispersion of Long-Range Surface-Plasmon-Polariton Waveguides Using a Hong-Ou-Mandel Interferometer,\u201d Opt. Express Vol. 25, No. 8, pp. 9490-9501 (2017).
    \u672c\u8ad6\u6587\u306fOptics Express\u8a8c\u306eEditor\u2019s pick\u306b\u9078\u3070\u308c\u307e\u3057\u305f\u3002<\/span><\/strong><\/span><\/li>\n
  13. S. Utsunomiya, N. Namekata, K. Takata, D. Akamatsu, S. Inoue, and Y. Yamamoto, \u201cBinary phase oscillation of two mutually coupled semiconductor lasers,\u201d Opt. Express Vol. 23, No. 5, pp. 6029-6040 (Feb. 26, 2015).<\/li>\n
  14. G. Fijii, D. Fukuda, and S. Inoue, \u201cDirect observation of bosonic quantum interference of surface plasmon polaritons using photon-number-resolving detectors,\u201d Phys. Rev. B Vol. 90, 085430 (Aug. 25. 2014).<\/li>\n
  15. S. Suzuki, N. Namekata, K. Tsujino, and S. Inoue, \u201cHighly enhanced avalanche probability using sinusoidally gated silicon avalanche photodiode,\u201d Appl. Phys. Lett. Vol. 104, No. 4, 041105 (Jan. 28. 2014).<\/li>\n
  16. Q.-L. Wu, N. Namekata, and S. Inoue, “Sinusoidally Gated InGaAs Avalanche Photodiode with Direct Hold-Off Function for Efficient and Low-Noise Single-Photon Detection,” Appl. Phys. Express Vol. 6, No. 6, 062202 (May 23. 2013)<\/li>\n
  17. Q.-L. Wu, N. Namekata, and S. Inoue, \u201cHigh-fidelity entanglement swapping at\u3000telecommunication wavelengths,\u201d J. Phys. B: At. Mol. Opt. Phys. Vol.46, No. 23, 235503 (Nov. 20. 2013).<\/li>\n
  18. G. Fujii, T. Segawa, S. Mori, N. Namekata, D. Fukuda, and S. Inoue, “Preservation of photon indistinguishability after transmission through surface-plasmon-polariton waveguide,” Opt. Lett. 37, No. 9, pp. 1535-1537 (May. 1 2012)<\/li>\n
  19. S. Arahira, N. Namekata, T. Kishimoto, and S. Inoue, “Experimental studies in generation of high-purity photon-pairs using cascaded \u03c7(2) processes in a periodically poled LiNbO3 ridge-waveguide device,” J. Opt. Soc. Am. B Vol. 29, No. 3, pp. 434-442 (Mar. 1 2012)<\/li>\n
  20. G. Fujii, D. Fukuda, T. Numata, A. Yoshizawa, H. Tsuchida, and S. Inoue, \u201cThin gold covered titanium transition edge sensor for optical measurement,\u201d J. Low Temp. Phys. 167<\/strong> (5-6), 815-821 (Jan. 25 2012).<\/li>\n
  21. N. Namekata, H. Takesue, T. Honjo, Y. Tokura, and S. Inoue, “High-rate quantum key distribution over 100 km using ultra-low-noise, 2-GHz sinusoidally gated InGaAs\/InP avalanche photodiodes,” Opt. Express 19 <\/strong>(11), 10632-10639 (2011.5.23)<\/li>\n
  22. N. Namekata and S. Inoue, \u201cUltra-low-noise high-speed single-photon detection using a sinusoidally gated InGaAs\/InP avalanche photodiode,\u201d in Proc. SPIE 7945 (SPIE press,U.S.A., 2011.5.26) 79452K.<\/li>\n
  23. C. Kothe, G. Bj\u00f6rk, S. Inoueand M. Bourennane, \u201cOn the efficiency of quantum lithography,\u201d New J. Phys. 13<\/strong>\u00a0043028 (April 19, 2011).<\/li>\n
  24. D. Fukuda, G. Fujii, T. Numata, K. Amemiya, A. Yoshizawa, H. Tsuchida, H. Fujino, H. Ishii, T. Itatani, S. Inoue, and T. Zama, \u201cTitanium-based transition edge photon number resolving detector with 98 % detection efficiency with index-matched small-gap fiber coupling,\u201d Opt. Express, 19<\/strong> (2), 870-875 (2011.1.17)<\/li>\n
  25. D. Fukuda, G. Fujii, T. Numata, K. Amemiya, A. Yoshizawa, H. Tsuchida, H. Fujino, H. Ishii, T. Itatani, S. Inoue, and T. Zama, \u201cTitanium Superconducting Photon-Number-Resolving Detector,\u201d IEEE Trans. Appl. Supercond. 21<\/strong> (3), 241-245 (2011.5.27)<\/li>\n
  26. K. Tsujino, D. Fukuda, G. Fujii, S. Inoue, M. Fujiwara, M. Takeoka, and M. Sasaki, \u201cQuantum Receiver beyond the Standard Quantum Limit of Coherent Optical Communication,\u201d Phys. Rev. Lett. 106<\/strong> (25), 250503 (2011.6.24)<\/li>\n
  27. S. Arahira, N. Namekata, T. Kishimoto, H. Yaegashi, and S. Inoue, “Generation of polarization entangled photon pairs at telecommunication wavelength using cascaded \u03c7(2)<\/sup> processes in a periodically poled LiNbO3<\/sub> ridge waveguide,” Opt. Express 19 <\/strong>(17), 16032-16043 (2011.8.15)<\/li>\n
  28. N. Dorenbos, H. Sasakura, M. P. van Kouwen, N. Akopian, S. Adachi, N. Namekata, M. Jo, J. Motohisa, Y. Kobayashi, K. Tomioka, T. Fukui, S. Inoue, H. Kumano, C. M. Natarajan, R. H. Hadfield, T. Zijlstra, T. M. Klapwijk, V. Zwiller, and I. Suemune: “Position controlled nanowires for infrared single photon emission”, Appl. Phys. Lett. 97<\/strong>(17)<\/strong>, 171106 (Oct. 2010)<\/li>\n
  29. N. Namekata, Y. Takahashi, G. Fujii, D. Fukuda, S. Kurimura and S. Inoue, “Non-Gaussian operation based on photon subtraction using a photon-number-resolving detector at a telecommunications wavelength”, Nature Photonics, 4<\/strong>(9), 655 – 660 (July 2010)<\/li>\n
  30. N. Namekata, S. Adachi, and S. Inoue, \u201cUltra-Low-Noise, Gated Avalanche Photodiode for High-Speed Single-photon Detection at Telecommunication Wavelengths,\u201d IEEE Photo. Tech. Lett. 22<\/strong>(8), 529-531 (April 2010).<\/li>\n
  31. K. Tsujino, D. Fukuda, G. Fujii, S. Inoue, M. Fujiwara, M. Takeoka, and M. Sasaki, “Sub-shot-noise-limit discrimination of on-off keyed coherent signals via a quantum receiver with a superconducting transition edge sensor,” Opt. Express 18<\/strong>(8), 8107-8114 (April 2010)<\/li>\n
  32. N. Namekata, S. Adachi, and S. Inoue, \u201cHigh-Speed Single-Photon Detection Using 2-GHz Sinusoidally Gated InGaAs\/InP Avalanche Photodiode,\u201d Quantum Communication and Quantum Networking (Springer), pp. 34-38 (Jan. 2010).<\/li>\n
  33. N. Namekata, T. Kono, S. Kurimura, and S. Inoue, \u201cNarrowband Polarization-Entangled Photon Pairs in Telecommunication Band Using a Type-II Periodically Poled Lithium Niobate Waveguide,\u201d Quantum Communication and Quantum Networking (Springer), pp. 261–265 (Jan. 2010).<\/li>\n
  34. G. Fujii, D. Fukuda, T. Numata, A. Yoshizawa, H. Tsuchida, S. Inoue, T. Zama, “Fiber Coupled Single Photon Detector with Niobium Superconducting Nanowire\u2019\u2019, Quantum Communication and Quantum Networking (Springer), pp.220-224 (Jan. 2010).<\/li>\n
  35. S. Mori, K. Hasegawa, T. Segawa, Y. Takahashi, and S. Inoue, \u201cInterference of Photon Emitted by a Slit\u2013Groove Structure after the Conversion of Photon to Surface Plasmons,\u201d Jpn. J. Appl. Phys. 48<\/strong>, 062001, (June 2009).<\/li>\n
  36. S. Mori, K. Hasegawa, T. Segawa, Y. Takahashi, and S. Inoue, \u201cOptical Transmission Properties of Subwavelength Slit Structures in Visible Wavelength Range,\u201d Jpn. J. Appl. Phys. 48<\/strong>, 052001, (May 2009).<\/li>\n
  37. N. Namekata, S. Adachi, and S. Inoue, \u201c1.5 GHz single-photon detection at telecommunication wavelengths using sinusoidally gated InGaAs\/InP avalanche photodiode,\u201d Opt. Express, 17<\/strong> (8), 6275-6282 (April 2009).<\/li>\n
  38. J. S\u00f6derholm and S. Inoue, \u201cThe Negative Binomial Distribution in Quantum Physics,\u201d Proceedings of The 9th International Symposium on Foundations of Quantum Mechanics in Light of New Technology, World Scientific, pp. 345-348 (2009). \u00a0\u00a0<\/li>\n
  39. S. Adachi, N. Namekata, and S. Inoue, \u201cTelecom-band single-photon detector with a gigahertz repetition frequency using a sinusoidally gated avalanche photodiode,\u201d Ninth International Conference on QCMC: AIP Conference Proceedings, 1110<\/strong>, 287-290 (April 2009).<\/li>\n
  40. Y. Takahashi, S. Komatsu, and S. Inoue, \u201cDetector imperfections in a recent scheme for Schr\u00f6dinger-cat generation,<\/strong>\u201d Ninth International Conference on QCMC: AIP Conference Proceedings, 1110<\/strong>, 275-278 (April 2009).<\/li>\n
  41. J. S\u00f6derholm and S. Inoue, \u201cSimple Class of Nonclassical States Generated by Seeded Down Conversion and Imperfect Photon Detection,\u201d Ninth International Conference on QCMC: AIP Conference Proceedings, 1110<\/strong>, 217-219 (April 2009).<\/li>\n
  42. D. Fukuda, G. Fujii, T.Numata, A.Yoshizawa, H. Tsuchida, S. Inoue, and T. Zama, \u201cTitanium TES based photon number resolving detectors with 1 MHz counting rate and 65 % quantum efficiency\u201d, Proceedings of SPIE: Quantum Communications Realized II, 7236<\/strong>, 72360C (January 2009).<\/li>\n
  43. D. Fukuda, G. Fujii, T.Numata, A.Yoshizawa, H. Tsuchida, H. Fujino, H. Ishii, T. Itatani, S. Inoue, and T. Zama, \u201cPhoton number resolving detection with high speed and high quantum efficiency\u201d, Metologia, 46<\/strong> (4), S288-S292 (August 2009).<\/li>\n
  44. G. Fujii, D. Fukuda, T.Numata, A.Yoshizawa, H. Tsuchida, H. Fujino, H. Ishii, T. Itatani, S. Inoue, and T. Zama, \u201cFabrication of multi-layered absorption structure for high quantum efficiency photon detectors\u201d The Thirteenth International Workshop on Low Temperature Detectors-LTD13. AIP Conference Proceedings, 1185<\/strong>, 719-722 (April 2009).<\/li>\n
  45. Y. Takahashi, J. S\u00f6derholm, K. Hirano, N. Namekata, S. Machida, S. Mori, S. Kurimura, S. Komatsu, and S. Inoue, \u201cEffects of dispersion on squeezing and photon statistics of down-converted light,\u201d Phys. Rev. A 77 <\/strong>(4), 043801 (April 2008).<\/li>\n
  46. D. Fukuda, G. Fujii, A. Yoshizawa, H. Tsuchida, R. M. T. Damayanthi, H. Takahashi, S. Inoue and M. Ohkubo, \u201cHigh Speed Photon Number Resolving Detector with Titanium Transition Edge Sensor\u201d, J. Low Temp. Phys. 151<\/strong> (1-2), 100-105 (January 2008).<\/li>\n
  47. N. Namekata, G. Hujii, T. Honjo, H. Takesue, and S. Inoue, \u201cDifferential Phase Shift Quantum Key Distribution Using Single-Photon Detectors Based on a Sinusoidally Gated InGaAs\/InP Avalanche Photodiode,\u201d Appl. Phys. Lett. 91 <\/strong>(1), 011112 (July 2007).<\/li>\n
  48. G. Fujii, N. Namekata, M. Motoyo, S. Kurimura, and S. Inoue, \u201cBright narrowband photon-pairs at an optical telecommunication wavelength using Type-II periodically poled lithium niobate waveguide,\u201d Opt. Express 15<\/strong> (20), 12769-12776 (October 2007).<\/li>\n
  49. N. Namekata, S. Mori, and S. Inoue, \u201cSingle-photon source for telecommunication wavelengths using non-degenerate photon pairs from a periodically poled LiNbO3<\/sub> waveguide\u201d J. J. Appl. Phys. 46<\/strong> (6A), 3410-3415 (June 2007).<\/li>\n
  50. \u7b39\u68ee\u771f\u53f8, \u884c\u65b9\u76f4\u4eba, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u201c1550nm\u5e2f\u5358\u4e00\u5149\u5b50\u691c\u51fa\u5668\u306e500MHz\u52d5\u4f5c,\u201d \u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a\u8ad6\u6587\u8a8c J89-C<\/strong> (12), 1085-1096 (December 2006).<\/li>\n
  51. N. Namekata, S. Sasamori, and S. Inoue, \u201c800 MHz Single-Photon Detection at 1550-nm Using an InGaAs\/InP Avalanche Photodiode Operated with a Sine Wave Gating,\u201d Opt. Express 14<\/strong> (21), 10043-10049 (October 2006).\n

    This paper was featured on the research highlight for Nature photonics (November, 2006)<\/span><\/strong><\/span><\/p>\n<\/li>\n

  52. \n

    N. Namekata, and S. Inoue, \u201cHigh-efficiency interaction-free measurements using a stabilized Fabry\u2013P\u00e9rot cavity,\u201d J. Phys. B: At. Mol. Opt. Phys. <\/span>39<\/strong>,<\/strong> 3177-3183 (August 2006).<\/span><\/p>\n<\/li>\n

  53. S. Mori, J. Soderholm, N. Namekata, and S. Inoue, \u201cOn the distribution of 1550-nm photon pairs efficiently generated using a periodically poled lithium niobate waveguide,” Opt. Commun. 264 <\/strong>(1), 156-162 (August 2006).<\/li>\n
  54. J. S\u00f6derholm, K. Hirano, S. Mori, S. Kurimura, and S. Inoue, \u201cAnalysis of the generation of photon pairs in periodically poled lithium niobate,\u201d pp. 46-49 in proceedings of The 8th International Symposium on Foundations of Quantum Mechanics in Light of New Technology, World Scientific (June 2006): quant\/ph 0511128v2.<\/li>\n
  55. Namekata, S.Mori, and S.Inoue, \u201dQuantum key distribution over an installed multimode optical fiber local area network,” Opt. Express 13<\/strong> (25), 9961-9969 (December 2005).<\/li>\n
  56. \u884c\u65b9\u76f4\u4eba, \u68ee\u8302\u5f66, \u672c\u8c37\u5c06\u4e4b, \u5e73\u91ce\u572d\u4e00, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u201c\u30d1\u30e9\u30e1\u30c8\u30ea\u30c3\u30af\u4e0b\u65b9\u5909\u63db\u5149\u5b50\u5bfe\u3092\u7528\u3044\u305f1550nm\u5e2f\u5358\u4e00\u5149\u5b50\u767a\u751f,\u201d \u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a\u8ad6\u6587\u8a8c J88-C <\/strong>(5), 303-313 (May 2005).\n

    (\u7ffb\u8a33) N. Namekata, Y. Makino, S. Inoue, \u201cSingle-photon generation at 1550nm using a periodically poled lithium niobate waveguide\u201d, IEICE Electronics and Communications in Japan (part II: Electronics) 89<\/strong> (2), 8-17 (February 2006).<\/p>\n<\/li>\n

  57. \u672b\u677e\u77e5\u6075, \u884c\u65b9\u76f4\u4eba, \u5cf6\u7530\u4e00\u5e73, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u201c\u5149\u5b50\u691c\u51fa\u306b\u3088\u308b\u7269\u7406\u4e71\u6570\u767a\u751f\u3068\u305d\u306e\u8a55\u4fa1,\u201d \u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a\u8ad6\u6587\u8a8c J88-A <\/strong>(9), 1063-1070 (September 2005).<\/li>\n
  58. \u68ee\u8302\u5f66, \u672c\u8c37\u5c06\u4e4b, \u884c\u65b9\u76f4\u4eba, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u201c\u5468\u671f\u5206\u6975\u53cd\u8ee2\u4e8c\u30aa\u30d6\u9178\u30ea\u30c1\u30a6\u30e0\u5c0e\u6ce2\u8def\u306b\u3088\u308b1550nm\u5e2f\u306b\u304a\u3051\u308b\u76f8\u95a2\u5149\u5b50\u5bfe\u306e\u767a\u751f,\u201d \u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a\u8ad6\u6587\u8a8c J87-C<\/strong> (9), 675-685 (September 2004).\n

    (\u7ffb\u8a33) S. Mori, M. Motoya, N. Namekata and S. Inoue, “Generation of correlated photon pairs in the 1550nm band using a periodically poled lithium niobate waveguide”, IEICE Electronics and Communications in Japan: (Part\u2161: Electronics) 88 <\/strong>(11), 28-36 (November 2005)<\/p>\n<\/li>\n

  59. \u884c\u65b9\u76f4\u4eba, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u201d1550nm\u5e2f\u306b\u304a\u3051\u308b\u9577\u8ddd\u96e2\u91cf\u5b50\u6697\u53f7\u9375\u914d\u5e03,\u201d \u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a\u8ad6\u6587\u8a8c J86-C<\/strong> (8), 920-926, (August 2003).<\/li>\n
  60. J. S\u00f6derholm, G. Bj\u00f6rk, B. Hessmo, and S. Inoue, \u201cQuantum limits on phase-shift detection using multimode interferometers,\u201d Phys. Rev. A 67<\/strong> (5), 053803 (May 2003)<\/li>\n
  61. \u884c\u65b9\u76f4\u4eba, \u7267\u91ce\u96c4\u751f, \u4e95\u4e0a\u4fee\u4e00\u90ce,\u201c\u9577\u8ddd\u96e2\u91cf\u5b50\u6697\u53f7\u901a\u4fe1\u306e\u305f\u3081\u306e\u5358\u4e00\u5149\u5b50\u691c\u51fa\u5668,\u201d \u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a\u8ad6\u6587\u8a8c J85-C<\/strong> (11), 978-982 (November 2002).\n

    (\u7ffb\u8a33) N. Namekata, Y. Makino, and S. Inoue, \u201cSingle-Photon Detector for Long-Distance Quantum Cryptography\u201d, IEICE Electronics and Communications in Japan (part \u2161: Electronics) 86<\/strong> (5), 10-15 (May 2003).<\/p>\n<\/li>\n

  62. \n

    N. Namekata and S. Inoue, \u201cFiber-Optic Quantum Key Distribution at 1550nm,\u201d pp. 96-97 in Proceedings of ERATO Workshop on Quantum Information Science 2002 (September 2002).<\/span><\/p>\n<\/li>\n

  63. \n

    N. Namekata, Y. Makino, and S. Inoue, \u201dSingle-photon detector for long-distance fiber-optic quantum key distribution\u201d, Opt. Lett.. <\/span>27<\/strong> (11), 954-956 (June 2002).<\/span><\/p>\n<\/li>\n

  64. \n

    H. Watanabe and S. Inoue, \u201cExperimental Demonstration of Two-Dimensional Interaction-Free Imaging,\u201d pp. 148-150 in Proceedings of the 8th Asia-Pacific Physics Conference (World Scientific (May 2001).<\/span><\/p>\n<\/li>\n

  65. \n

    G. Bj\u00f6rk, S. Inoue, and J. S\u00f6derholm, \u201cVisibility is not a good measure of a well-defined relative phase,\u201d Phys. Rev. A <\/span>62<\/strong> (2), 023817 (July 2000).<\/span><\/p>\n<\/li>\n

  66. \n

    S. Inoue and G. Bj\u00f6rk, \u201cExperimental Demonstration of Exposure-Free Imaging and Contrast Amplification,\u201d J. Opt. B:Quantum Semiclassical Opt. <\/span>2<\/strong> (3), 338-345 (June 2000).<\/span><\/p>\n<\/li>\n<\/ol>\n<\/section>\n

    \n

    \u56fd\u969b\u4f1a\u8b70\u767a\u8868\uff08International Conferences\uff09<\/h4>\n
      \n
    1. N. Namekata and S. Inoue, “Heralding single-photon replicator using an fiber-optic polarization interferometer” SPIE Quantum west\/Photonics West<\/em>, Quantum Computing, Communication, and Simulation IV, 12911-112 (Jan. 27- Feb. 1, 2024).[Contributed poster].<\/li>\n
    2. S. Namekata, N. Namekata, S. Ohya, and S. Inoue, “Continuous-time quantum walk in a frequency-domain system using a frequency-stabilized laser,” 10th International workshop of Qunatum simulation and Quantum Walk <\/em>(QSQW 2023), Tsukuba (Nov. 10 ~ 12, 2023) P18 [Contributed poster].<\/li>\n
    3. N. Namekata, N. Kobayashi, K. Nomura, T. Sako, N. Takata, and S. Inoue, “Quantum Optical Tomography using a Time-Resolved and Mode-Selective Frequency-Up-Conversion Detector,” 2023 Conference on Lasers and Electro-Optics\/Europe \u2013 European Quantum Electronics Virtual Conferences<\/em> (CLEO\u00ae\/Europe-EQEC 2023), ICM, Munich, Germany, PD-2.4 (June 26-30, 2023). [Contributed talk]<\/li>\n
    4. H. Hagihara, K. Yokota, N. Namekata, and S. Inoue, \u201cNear infrared single-photon imaging based on compressive sensing with a sinusoidally gated InGaAs\/InP single-photon avalanchediode,\u201d the SPIE. the optoelectronics, photonic materials and devices conference (OPTO), San Francisco, USA, (Feb. 1-6, 2020). [Contributed talk]<\/li>\n
    5. D. Wu, T. Yamaguchi, S. Inoue, S. Ohnuki, \u201cTime-division Efficient Parallel Algorithm for Designing Metallic Slabs for Quantum Walk,\u201d Photonics and Electromagnetics Research Symposium 2019 (PIERS), Xiamen, China, 2A18b-1 (Dec. 17-20, 2019). [Contributed talk]
      D. Wu\u306f1st Prize of Best Student Paper Award (SC1: EM Theory, CEM, EMC, Quantum Physics, Multiphysics, and Scattering)\u3092\u53d7\u8cde\u3057\u307e\u3057\u305f.<\/span><\/li>\n
    6. Hamashima, D. Wu, S. Kishimoto, S. Inoue, and S. Ohnuki, \u201cInvestigation of Plasmon Modes for a Thin-metal Waveguide Using Grating Structure,\u201d Progress In Electromagnetics Research Symposium<\/em> (PIERS 2019), 1P5-8, p. 268, Xiamen, China, December 2019.<\/li>\n
    7. Hamashima, D. Wu, S. Kishimoto, S. Inoue, and S. Ohnuki, \u201cFundamental Study of Surface Plasmon Modes Using Grating Structure,\u201d 2019 URSI-Japan Radio Science Meeting<\/em> (URSI-JRSM 2019), BP-25, p. 155, Tokyo, Japan, September 2019.<\/li>\n
    8. Ohnuki, M. Endo, K. Hamashima, R. Ohnishi, N. Taniguchi, T. Tamaru, D. Wu, R. Ozaki, and S. Inoue, \u201cEfficient Finite Difference Schemes for Designing Electromagnetic Devices\u201d, URSI AP-RASC 2019, March 9-15, New Delhi, India, 2019.<\/li>\n
    9. D. Wu, K. Hamashima, N. Namekata, S. Inoue, and S. Ohnuki, \u201cDesign of Plasmonic Devices by a Time-frequency Domain Analysis Using the FDCFD-FILT Method,\u201d Photonics and Electromagnetics Research Symposium 2019 (PIERS), Xiamen, China, 2P4-8 (Dec. 17-20, 2019). [Contributed talk]<\/li>\n
    10. N. Namekata, D. Wu, S. Ohnuki, D. Fukuda, and S. Inoue, \u201cContinuous quantum walk in 1-dimensional lattice structure based on a plasmonic waveguide,\u201d International Symposium on Hybrid Quantum Systems 2019, Shimane, Japan, Wed-A1-2 (Dec. 1-4, 2019). [Contributed talk]<\/li>\n
    11. H. Hagihara, K. Yokota, N. Namekata, and S. Inoue, \u201cNear infrared single-pixel imaging of a spatial distribution of photonic quantum walkers,\u201d International Symposium on Hybrid Quantum Systems 2019, Shimane, Japan, P24 (Dec. 1-4, 2019). [Contributed poster]<\/li>\n
    12. N. Namekata, D. Wu, S. Ohnuki, D. Fukuda, and S. Inoue, \u201cQuantum walk in a plasmonic waveguide lattice structure,\u201d International Conference on Emerging Quantum Technology, Hefei, China, (Sep. 15-20, 2019). [Invited talk]<\/li>\n
    13. N. Namekata, R. Kobayashi, T. Naka, A. Tada, D. Fukuda, and S. Inoue, \u201cPlasmonic Quantum Walk in Gold Strip Parallel Waveguides,\u201d 2019 Conference on Lasers and Electro-Optics Europe & 16th European Quantum Electronics Conference (CLEO\/Europe-EQEC 2019), Munich, Germany, EB-P.15 (June. 23-27, 2019). [Contributed poster]<\/li>\n
    14. K. Hattori, R. Kobayashi, S. Inoue, K.Niwa, T. Numata, D. Fukuda, \u201cCharacterization of optical transition-edge sensors,\u201d Applied Superconductivity Conference (ASC 2018), Seattle, WA, USA (Oct. 28 \u2013 Nov. 2, 2018), 1EOr2C-02. [Contributed talk]<\/li>\n
    15. R. Kobayashi, K. Hattori, S. Inoue, D. Fukuda, \u201cDevelopment of fast response Titanium-Gold bilayer optical TES with optical fiber self-alignment structure,\u201d Applied Superconductivity Conference (ASC 2018), Seattle, WA, USA (Oct. 28 \u2013 Nov. 2, 2018), 2EPo2D-12. [Contributed poster]<\/li>\n
    16. K. Nilzeki, K. Ikeda, M. Zheng, X. Xie, K. Okamura, N. Takei, N. Namekata, S.Inoue, H. Kosaka, T. Horikiri, \u201c1.5-\u03bcm Narrow-Band Two-Photon Source for Long-Distance Quantum Communication,\u201d 2018 Pacific-Rim Conference on Laser and Electro-Optics (CLEO-PR 2018), Hong Kong, Hong Kong, Th4J.6 (2018). [Contributed talk]<\/li>\n
    17. N. Namekata, M.Oya, J. Nishikawa and S. Inoue, \u201cGeneration and Detection of 256 Photonic Quantum States Using Deformable-Mirror-Based Adaptive Optics and Its Application to Quantum Secure Authentication,\u201d Conference on Lasers and Electro-Optics (CLEO 2018), San Jose, CA, USA (May 13- May 18, 2018). [Contributed talk]<\/li>\n
    18. A. Tada, N. Namekata and S. Inoue, \u201cSingle-photon buffer at a telecommunication wavelength using a fiber-optic switch,\u201d 2017 Pacific Rim Conference on Lasers and Electro-Optics (CLEO-PR 2017), Singapore, Republic of Singapore (July 31-August 4, 2017). [Contributed poster]<\/li>\n
    19. R. Takahata, N. Namekata, A. Tada, and S. Inoue, \u201cSingle-Photon Detection in 900 nm Range\u3000Using InGaAs\/InP Single-Photon Avalanche Diode,\u201d 2017 Pacific Rim Conference on Lasers and Electro-Optics (CLEO-PR 2017), Singapore, Republic of Singapore (July 31- August 4, 2017). [Contributed poster]<\/li>\n
    20. M. Oya, N. Namekata, J. Nishikawa and S. Inoue, \u201cQuantum secure authentication system using adaptive optics,\u201d 2017 Pacific Rim Conference on Lasers and Electro-Optics\u3000(CLEO-PR 2017), Singapore, Republic of Singapore (July 31-August 4, 2017). [Contributed poster]<\/li>\n
    21. A. Tada, N. Namekata, and S. Inoue, \u201cSinusoidally gated InGaAs\/InP avalanche photodiode with 53% photon detection efficiency at 1550 nm,<\/strong>\u201d 2016 Conference on Lasers and Electro-Optics (CLEO 2016), San Jose, CA, USA (June 5-10, 2016). [Contributed talk]<\/li>\n
    22. N. Namekata, A. Tada, G.-L. Shentu, Q. Zhang, J.-W. Pan, and S. Inoue, \u201c85% Single-Photon Detection Efficiency at 780 nm Using a Silicon Avalanche Photodiode with High-Voltage Gating,\u201d 5th International Conference on Quantum Cryptography (QCrypt2015), Tokyo, Japan, (Sept. 28 -Oct. 2, 2015). [Contributed poster]<\/li>\n
    23. N. Namekata, A. Tada, and S. Inoue, \u201cHigh Efficiency Near-Infrared Single-Photon Detector Using a Sinusoidally Gated InGaAs\/InP Single-Photon Avalanche Photodiode,\u201d Single Photon Workshop 2015, Geneva, Switzerland, (July 13-17, 2015). [Invited talk]<\/li>\n
    24. A. Tada, N. Namekata, and S. Inoue, \u201cGated Silicon Avalanche Photodiode With 85% Single-Photon Detection Efficiency,\u201d Single Photon Workshop 2015, Geneva, Switzerland, (July 13-17, 2015). [Contributed poster]<\/li>\n
    25. S. Inoue, G. Fujii, and D. Fukuda, “Quantum Plasmonics with Superconducting Detectors Toward Quantum Information Processing,” 26th International Symposium on Superconductivity, FD-17-INV, Tokyo, Japan (November 18-20, 2013)[Invited talk].<\/li>\n
    26. S. Ohnuki, Y.Sekiguchi, D. T. Quang, G. Fujii and S.Inoue\u3000”Design of Plasmonic Devices for Novel Photodetectors,” 2013 Asia-Pacific Radio Science Conference, PI-BFK-3, 290606. Taipei, Taiwan, (Sep. 3-7, 2013) [Contributed poster].<\/li>\n
    27. N. Namekata, \u201cEntanglement distribution and swapping at telecommunication wavelengths using sinusoidally gated InGaAs\/InP avalanche photodiodes,\u201d Quantum, Crystal, Graphene and New Particle Science Boston Symposium 2013, Boston, USA, (Sep.4-5. 2013). [Invited talk]<\/li>\n
    28. S. Inoue, Q. L. Wu and N. Namekata, \u201cSinusoidally Gated InGaAs\/InP Avalanche Photodiodes for Entanglement-based Quantum Key Distribution,\u201d 96th<\/sup> OSA\u2019s annual meeting (Frontiers in Optics) \/ APS\/DLS 28th<\/sup> annual meeting (Laser Science), Rochester, USA, FW4J.1. (October 14-18. 2012)[Invited talk]<\/li>\n
    29. N. Namekata \u201cRecent progress of near-infrared single-photon detector based on InGaAs\/InP avalanche photodiode and its application to quantum technology,\u201d T<\/strong>he International Conference on Quantum Foundation and Technology, Dunhuang, China (August. 25-30 2012)[Invited talk]<\/li>\n
    30. N. Namekata, Q. L. Wu, and S. Inoue, \u201cFree-Running Single-Photon Detection at Telecommunication Wavelength Using a Sinusoidally Gated InGaAs\/InP Avalanche Photodiode,\u201d T<\/strong>he International Conference on Quantum Foundation and Technology, Dunhuang, China (August. 25-30 2012)[Contributed poster]<\/li>\n
    31. Q.-L. Wu, N. Namekata, and S. Inoue, \u201cHong-Ou-Mandel interference with photon pairs at 1550nm created in spatially separated sources,\u201d T<\/strong>he International Conference on Quantum Foundation and Technology, Dunhuang, China (August. 25-30 2012)[Contributed poster]<\/li>\n
    32. M. Sakaidani, G. Fujii, A. Fujikake, N. Namekata, D. Fukuda, and S. Inoue, \u201cMach-Zehnder interferometer using a long-range surface plasmon polariton coupler\u201d, <\/strong>SPIE Optics + Photonics, 8457-74, San Diego, USA (August. 12-16 2012) [Contributed poster]<\/strong><\/li>\n
    33. G. Fujii, T. Sakaidani, A. Fujikake, N. Namekata, D. Fukuda, and S. Inoue,\u201c <\/strong>Measurement\u00a0of\u00a0the\u00a0surface\u00a0plasmon\u00a0polariton\u00a0waveguide coupling\u00a0ratio\u00a0using\u00a0quantum\u00a0interference,\u201d <\/strong>The Sixth International Conference on Nanophotonics (ICNP), P29, Beijin, China (May. 27-30 2012)[Contributed poster]<\/li>\n
    34. G. Fujii, A. Fujikake, N. Namekata, D. Fukuda, and S. Inoue, “Experimental demonstration of bosonic quantum interference of single surface plasmon polaritons,” CLEO: QELS-Fundamental Science, QF1D.6., San Jose, USA, (May. 6-11 2012)[Contributed talk]<\/li>\n
    35. N. Namekata and S. Inoue\u3001\u201cUltra-low-noise high-speed single-photon detection using a sinusoidally gated InGaAs\/InP avalanche photodiode,\u201d SPIE Photonics West, 7945-94, San Francisco, USA (Jan. 23-27 2011) [Invited talk]<\/li>\n
    36. N. Namekata, H. Takesue, T. Honjo, Y. Tokura, and S. Inoue, “Practical Quantum Key Distribution Over 100 km Using Sinusoidally Gated InGaAs\/InP Avalanche Photodiodes”, CLEO\/QELS 2011, JTuC3, Baltimore, USA (May.1-5 2011)[Contributed talk]<\/li>\n
    37. Q.-L. Wu, N. Namekata, T. Kono, and S. Inoue, \u201cHigh-Efficiency Single-photon detection using Sinusoidally Gated InGaAs\/InP Avalanche Photodiode\u201d, the annual international laser physics workshop 2011, Seminar-7.8.5, Sarajevo, Bosnia and Herzegovina (July 11-15 2011)<\/li>\n
    38. S. Inoue, \u201cHigh-Rate Distribution of Polarization Entanglement at Telecommunication Wavelength using Sinusoidally Gated InGaAs\/InP Avalanche Photodiodes\u201d, IEEE Summer topical 2011, TuA2.2, Montreal, Quebec, Canada (July. 18-20 2011)[Invited talk]<\/li>\n
    39. G. Fujii, D. Fukuda, T. Numata, A. Yoshizawa, H. Tsuchida, and S. Inoue, \u201cEffect of black body derived photon emission to superconducting optical detectors,\u201d 14th<\/sup> International Workshop on Low Temperature Detectors, Hidelberg, (Aug. 1-5 2011)[Contributed poster]<\/li>\n
    40. D. Fukuda, G. Fujii, A. Yoshizawa, T. Numata, K. Amemiya, S. Inoue, and H. Tsuchida, \u201cNovel photon detector utilizing superconducting optical detection technology and its application to a few-photon radiometry,\u201d 11th<\/sup> International Conference on New Development and Applications in Optical Radiometry, Maui, (Sep. 19-23 2011) [Invited talk]<\/li>\n
    41. N. Namekata, T. Kono and S. Inoue, \u201cUltra Low-Noise Single-Photon Detection Using a Sinusoidally Gated InGaAs\/InP Avalanche Photodiode,\u201d Updating Quantum Cryptography and Communications (UQCC) 2010, P-62, Tokyo, Japan (Oct. 18-20 2010) [contributed poster]<\/li>\n
    42. G. Fujii, D. Fukuda, T. Numata, K. Amemiya, A. Yoshizawa, H. Tsuchida, H. Fujino, H. Ishii, T. Itatani, S. Inoue, and T. Zama, \u201c98 % quantum efficiency photon number resolving detector with titanium-based transition edge sensor,\u201d The Tenth International Conference on Quantum Communication, Measurement and Computation (QCMC), THU-3, Brisbane, Australia (July 18-23 2010)[contributed paper]<\/li>\n
    43. N. Namekata, T. Kono and S. Inoue, \u201cSinusoidally gated InGaAs\/InP avalanche photodiode operated in a low temperature regime,\u201d The Tenth International Conference on Quantum Communication, Measurement and Computation (QCMC), P2-31, Brisbane, Australia (July 18-23 2010)[contributed poster]<\/li>\n
    44. T. Kono, N. Namekata, S. Kurimura and S. Inoue, \u201cDistribution of polarization entangled photon pairs using sinusoidally gated InGaAs\/InP avalanche photodiodes,\u201d The Tenth International Conference on Quantum Communication, Measurement and Computation (QCMC), P2-54, Brisbane, Australia (July 18-23 2010) [contributed poster].<\/li>\n
    45. G. Bj\u00f6rk, C. Kothe, M. Bourennane, and S. Inoue, \u201cQuantum lithography \u2014possibilities and limitations\u201d, invited talk at Quantum Optics V, Cozumel, Mexico, (November 15-19, 2010) [Invited talk].<\/li>\n
    46. T. Segawa, G. Fujii, N. Namekata, S. Inoue, D. Fukuda, \u201cPreservation of indistinguishability between correlated two photons under propagation in surface plasmons waveguide,\u201d The 7th Asia-Pacific conference on Near-Field Optics (APNFO-7), \u2163(1)-BW3, Jeju, Korea (November 25-27, 2009) [contributed talk].<\/li>\n
    47. N. Namekata, S. Adachi, and S. Inoue, \u201cHigh-Speed Single-Photon Detection Using 2-GHz Sinusoidally Gated InGaAs\/InP Avalanche Photodiode,\u201d International Conference on Quantum Communication and Quantum Networking, Napoli, Italy (October 26-30, 2009) [contributed talk].<\/li>\n
    48. N. Namekata, T. Kono, S. Kurimura, and S. Inoue, \u201cNarrowband Polarization-Entangled Photon Pairs in Telecommunication Band Using a Type-II Periodically Poled Lithium Niobate Waveguide,\u201d International Conference on Quantum Communication and Quantum Networking, Napoli, Italy (October 26-30, 2009). [contributed talk].<\/li>\n
    49. N. Namekata, Y. Takahashi, G. Fujii, D. Fukuda, S. Kurimura, and S. Inoue, \u201cGeneration of Non-Gaussian Quantum State in Telecommunication band,\u201d International Conference on Quantum Communication and Quantum Networking, Napoli, Italy (October 26-30, 2009). [contributed poster]<\/li>\n
    50. G. Fujii, D. Fukuda, T. Numata, A. Yoshizawa, H. Tsuchida, S. Inoue, T. Zama,\u00a0\u201cFiber Coupled Single Photon Detector with Niobium Superconducting,\u201d International Conference on Quantum Communication and Quantum Networking, Napoli, Italy (October 26-30, 2009). [contributed poster]<\/li>\n
    51. N. Namekata, S. Adachi and S. Inoue, \u201cGeneration of high-purity polarization entangled photon pairs using a Type-II PPLN waveguide,\u201d 18th International Laser physics workshop (LPHYS ’09), Seminar-7.3.6<\/strong>, Barcelona, Spain (July 13-17, 2009) [contributed talk].<\/li>\n
    52. N. Namekata, T. Kono, K. Hasegawa, S. Kurimura, and S. Inoue, \u201cThermal-noise-limited, gated InGaAs\/InP avalanche photodiode for high-speed single-photon detection,\u201d 18th International Laser physics workshop (LPHYS ’09), P7-6<\/strong>, Barcelona, Spain (July 13-17, 2009) [contributed poster].<\/span><\/li>\n
    53. Y. Takahashi, S. Komatsu, and S. Inoue, \u201cEnhancement of quadrature squeezing with photon subtraction,\u201d 18th International Laser physics workshop (LPHYS ’09), P<\/strong>7-7<\/strong>, Barcelona, Spain (July 13-17, 2009) [contributed poster].<\/span><\/li>\n
    54. D. Fukuda, G. Fujii, T.Numata, A.Yoshizawa, H. Tsuchida, H. Fujino, H. Ishii, T. Itatani, S. Inoue, and T. Zama, \u201cTitanium TES based photon number resolving detectors with 1 MHz counting rate and 65 % quantum efficiency\u201d, SPIE Photonics West 2009, 7236-11<\/strong>, San Jose, (January 24-29, 2009) [contributed talk].<\/span><\/li>\n
    55. D. Fukuda, G. Fujii, T.Numata, A.Yoshizawa, H. Tsuchida, H. Fujino, H. Ishii, T. Itatani, S. Inoue, and T. Zama, \u201cLow Timing Jitter and Fast Response Superconducting Photon Number Resolving Detectors\u201d, International Superconductive Electronics Conference 2009, MD-P11<\/strong>, Fukuoka, Japan (June 16-19, 2009) [invited poster].<\/span><\/li>\n
    56. K. Tsujino, D. Fukuda,G. Fujii, M. Takeoka, M. Fujiwara, S. Inoue, and M. Sasaki, \u201cExperimental demonstration of near-optimal quantum receiver using a superconducting transition edge sensor\u201d, The European Conference on Lasers and Electro-Optics and the European Quantum Electronics Conference 2009 (CLEO\/Europe-EQEC \u201809), ED4.1-THU, Munich, Germany (June 14-19, 2009) [contributed talk].<\/li>\n
    57. D. Fukuda, G. Fujii, T.Numata, A.Yoshizawa, H. Tsuchida, H. Fujino, H. Ishii, T. Itatani, S. Inoue, and T. Zama, \u201cFast response and high quantum efficiency Ti-based TES optical detector and its application to quantum information\u201d, 13th International Workshop on Low Temperature Detectors, T220<\/strong>, Stanford, United States (July 20-24, 2009) [contributed talk].<\/li>\n
    58. G. Fujii, D. Fukuda, T.Numata, A.Yoshizawa, H. Tsuchida, H. Fujino, H. Ishii, T. Itatani, S. Inoue, and T. Zama, \u201cFabrication of multi-layered absorption structure for high quantumefficiency photon detectors\u201d, 13th International Workshop on Low Temperature Detectors, P105<\/strong>, Stanford, United States (July 20-24, 2009) [contributed poster]<\/li>\n
    59. S. Mori, K. Hasegawa, and S. Inoue, \u201cPolarization-dependent Enhanced Optical Transmission through One-dimensional Subwavelength Slit Arrays\u201d, The Conference on Lasers and Electro-Optics \/ the Quantum Electronics and Laser Science Conference (QLEO\/QELS 2008), ThP_075<\/strong>, San Jose, United States (May 4-8, 2008). [contributed poster].<\/li>\n
    60. S. Adachi, N. Namekata, and S. Inoue, \u201cTelecom-band single-photon detector with a gigahertz repetition frequency using a sinusoidally gated avalanche photodiode,” The 9th International Conference on Quantum Communication, Measurement and Computing, P2-34<\/strong>, Calgary, Canada (August 19-24, 2008), [contributed poster].<\/li>\n
    61. Y. Takahashi, J. S\u00f6derholm, S. Komatsu, and S. Inoue, \u201cDetector imperfections in a recent scheme for Schrodinger-cat generation,” The 9th International Conference on Quantum Communication, Measurement and Computing, P2-22<\/strong>, Calgary, Canada (August 19-24, 2008) [contributed poster].<\/li>\n
    62. D. Fukuda, G. Fujii, A. Yoshizawa, H. Tsuchida, T. Numata, H. Fujino, H. Ishii, T. Itatani, S. Inoue, and T. Zama, \u201cPhoton number resolving detection at near-infrared wavelength over 1 MHz counting rate,” The 9th International Conference on Quantum Communication, Measurement and Computing, P3-22<\/strong>, Calgary, Canada (August 19-24, 2008) [contributed poster].<\/li>\n
    63. J. S\u00f6derholm and S. Inoue, \u201cSimple class of nonclassical states generated by seeded down-conversion and imperfect photon detection,” The 9th International Conference on Quantum Communication, Measurement and Computing, P3-29<\/strong>, Calgary, Canada (August 19-24, 2008) [contributed poster].<\/li>\n
    64. J. S\u00f6derholm and S. Inoue, \u201cThe Negative Binomial Distribution in Quantum Physics,” the 9th International Symposium on Foundations of Quantum Mechanics in the Light of New Technology, PII-26<\/strong>, Hatoyama, Japan (August 25-28, 2008) [contributed poster].<\/li>\n
    65. N. Namekata, S. Adachi, and S. Inoue, \u201cTelecom-Band Single-Photon Detection Using Sinusoidally Gated APD for GHz Clocked Systems,\u201d the Quantum Network Demonstration and Science Conference, Vienna, Austria (October 8-10, 2008) [contributed talk].<\/li>\n
    66. K. Hasegawa, M. Obinata, N. Namekata, S. Kurimura, and S. Inoue, \u201cGeneration of Narrowband Polarization-Entangled Photon-Pairs Using a Type-II Periodically Poled Lithium Niobate Waveguide,\u201d the Quantum Network Demonstration and Science Conference, Vienna, Austria (October 8-10, 2008) [contributed poster].<\/li>\n
    67. G. Fujii, D. Fukuda, T. Numata, A. Yoshizawa, H. Tsuchida, H. Fujino, H. Ishii, T. Itatani, S Inoue, and T. Zama, \u201cHigh-Speed and High-Efficiency Photon-Number-Resolving Detector at Telecommunication Wavelengths,\u201d the Quantum Network Demonstration and Science Conference, Vienna, Austria (October 8-10, 2008) [contributed poster].<\/li>\n
    68. D. Fukuda, G. Fujii, A. Yoshizawa, H. Tsuchida, H. Fujino, H. Ishii, T. Itatani, T. Numata, M. Ohkubo, \u201cHigh-speed and high-efficiency photon-number resolving transition edge sensors with resonant cavities\u201d, 2008 Applied Superconductivity Conference, 1EPA03, Chicago, United States (August 17-22, 2008) [contributed poster].<\/li>\n
    69. D. Fukuda, G. Fujii, T.Numata, A.Yoshizawa, H. Tsuchida, H. Fujino, H. Ishii, T. Itatani, S. Inoue, and T. Zama, \u201cPhoton number resolving detection with high speed and high quantum efficiency\u201d, The 10th International Conference on New Developments and Applications in Optical Radiometry, S288, Daejeon, Korea (October 12-16, 2008)[contributed talk].<\/li>\n
    70. N. Namekata, G. Fujii, T. Honjo, H. Takesue, \u201cQuantum key distribution using single-photon detectors based on sinusoidally gated InGaAs\/InP avalanche photodiodes,\u201d The 7th Pacific Rim Conference on Laser and Electro-optics (CLEO\/Pacific Rim<\/em>), PDPA-5, Seoul, Korea (August 26-31, 2007) [contributed talk].<\/li>\n
    71. S. Mori, K. Hasegawa, S. Inoue, \u201cPolarization-dependent Enhanced Optical Transmission through One-dimensional Subwavelength Slit Arrays,\u201d The 7th Pacific Rim Conference on Laser and Electro-optics (CLEO\/Pacific Rim<\/em>), ThP_075, Seoul, Korea (2007) [contributed poster].<\/li>\n
    72. N. Namekata and S. Inoue, \u201cAfterpulsing-free 80MHz single-photon detection at 1550 nm using an InGaAs\/InP avalanche photodiode operated with sinusoidal gating,\u201d The European Conference on Lasers and Electro-Optics and the International Quantum Electronics Conference (CLEO\/Europe-IQEC), IC6-2-THU, Munich, Germany (June 17-22, 2007) [contributed talk].<\/li>\n
    73. G. Fujii, M. Motoya, N. Namekata, and S. Inoue, \u201cGeneration of narrowband photon-pairs in 1550 nm band using Type-II periodically poled lithium niobate waveguide,\u201d The European Conference on Lasers and Electro-Optics and the International Quantum Electronics Conference (CLEO\/Europe-IQEC), IF-4-TUE, Munich, Germany (June 17-22, 2007) [contributed poster].<\/span><\/li>\n
    74. S. Mori, K. Hasegawa, S. Inoue, \u201cInvestigation of enhanced optical transmission through single and double subwavelength slits,\u201d The 1st European Topical Meeting on Nanophotonics and Metamaterials, WED4f.21, Tirol, Austria (January 8-11, 2007) [contributed poster].<\/li>\n
    75. J. S\u00f6derholm, S. Inoue, \u201cSimple Probabilistic Non-Gaussian Operation on Two-Mode Squeezed Vacuum States,\u201d International Conference on Quantum Information (ICQI), JWC51, New York, United States (June 13-15, 2007) [contributed poster].<\/li>\n
    76. Y. Takahashi, N. Namekata, J. S\u00f6derholm, K. Hirano, S. Machida, S. Inoue, S. Komatsu, S. Kurimura, \u201cHomodyne and photon-counting measurements of squeezed light at 1550 nm,\u201d The 8th International Conference on Quantum communication, measurement and computing, P3-5,Tsukuba, Japan (November 28 – December 3, 2006) [contributed poster].<\/li>\n
    77. N. Namekata, S. Sasamori, and S. Inoue, \u201c800MHz Single-Photon Detection at 1550-nm Using an InGaAs\/InP Avalanche Photodiode Operated with a Sinusoidal Gating,\u201d European Conference on Optical Communication and CLEO Focus Meeting 2006, We3.P.183, Cannes, France (September 24-28, 2006) [contributed poster].<\/li>\n
    78. K. Hirano, Y. Takahashi, N. Namekata, S. Machida, J. S\u00f6derholm, and S. Inoue, \u201cSqueezing and Photon-Statistics Measurements of 1550-nm Light Generated by Down-Conversion in Periodically Poled Lithium Niobate,\u201d European Conference on Optical Communication\/CLEO Focus Meeting 2006, We3.P.203, Cannes, France (September, 2006) [contributed poster].<\/li>\n
    79. N. Namekata, S. Mori, and S. Inoue, \u201cQuantum key distribution over an installed multimode optical fiber local area network,\u201d The Conference on Laser and Electro-Optics and Quantum Electronics and Laser Conference (CLEO\/QELS \u201806), JtuH1, Long Beach, United States (May 21-26, 2006) [contributed talk].<\/li>\n
    80. K. Hirano, Y. Takahashi, G. Fujii, S. Machida, S. Inoue, S. Komatsu, S. Kurimura, \u201cGeneration of femtosecond pulsed squeezed light in optical telecommunication band,\u201d The Conference on Laser and Electro-Optics and Quantum Electronics and Laser Conference (CLEO\/QELS \u201806), JTuD86, Long Beach, United States (May 21-26, 2006) [contributed poster].<\/li>\n
    81. M. Motoya, S. Kurimura, Y. Kato, Y. Usui, H. Nakajima, S. Inoue,\u201c Quasi-phase matched Type II parametric down converter with an adhered ridge waveguide,\u201d The 11th Microoptics Conference, H61, Tokyo, Japan (October 30 \u2013 November 2, 2005) [contributed poster].<\/li>\n
    82. J. S\u00f6derholm, K. Hirano, S. Mori, S. Kurimura, and S. Inoue, \u201cAnalysis of the generation of photon pairs in periodically poled lithium niobate,\u201d The 8th International Symposium on Foundations of Quantum Mechanics in Light of New Technology, PI-17, Saitama, Japan (August 22-25, 2005) [contributed poster].<\/li>\n
    83. N. Namekata, S. Mori, and S. Inoue, \u201cSingle-photon source at the telecommunication wavelength using non-degenerate photon-pairs from a periodically poled LiNbO3<\/sub> waveguide,\u201d The European Conference on Lasers and Electro-Optics and European Quantum Electronics Conference (CLEO\/Europe-EQEC \u201905), 294, Munich, Germany (June 12-17, 2005) [contributed poster].<\/li>\n
    84. S. Mori, N. Namekata and S. Inoue, \u201cDistribution of correlated photon-pairs in the 1550 nm band generated from a periodically poled lithium niobate waveguide,\u201d The European Conference on Lasers and Electro-Optics and European Quantum Electronics Conference (CLEO\/Europe-EQEC \u201905), 293, Munich, Germany (June 12-17, 2005) [contributed poster].<\/li>\n
    85. N. Namekata, and S. Inoue, \u201cHigh efficiency interaction-free measurements using stabilized a Fabry-Perot cavity\u201d, The 5th Pacific Rim Conference on Lasers and Electro-Optics (CLEO\/PR \u201803), F1G(4)-4, Taipei, Taiwan (December 15-19, 2003) [contributed talk].<\/li>\n
    86. S. Mori, N. Namekata, and S. Inoue, \u201cGeneration of pulsed correlated photon pairs in the 1550 nm band using PPLN waveguide\u201d, The 5th<\/sup> Pacific Rim Conference on Lasers and Electro-Optics (CLEO\/PR \u201803), F1G(4)-6, Taipei, Taiwan (December 15-19, 2003) [contributed talk].<\/li>\n
    87. N. Namekata, and S. Inoue, \u201cFiber-optic quantum key distribution at 1550 nm.\u201d ERATO Workshop on Quantum Information Science 2002, P12, Tokyo, Japan (September 4-6, 2002) [contributed poster].<\/li>\n
    88. H. Watanabe and S. Inoue, \u201cExperimental demonstration of two-dimensional interaction-free imaging,\u201d the 8th Asian-Pacific Physics Conference, FA-4, Taipei, Taiwan (August 7-10, 2000) [contributed talk].<\/li>\n
    89. G. Bj\u00f6rk and S. Inoue, \u201cExposure-free imaging\u201d, Northern Optics 2000, PO17, Uppsala, Sweden, (June 6-8, 2000) [contributed poster].<\/li>\n<\/ol>\n<\/section>\n
      \n
      \u56fd\u5185\u5b66\u4f1a\u767a\u8868\u7b49\uff08Domestic Conferences\uff09<\/h5>\n
        \n
      1. \u884c\u65b9 \u76f4\u4eba\u3001\u5c0f\u6797 \u4f38\u5f70\u3001\u91ce\u6751 \u7d62\u4e5f\u3001\u4f50\u7532 \u5fb3\u6804\u3001\u9ad8\u7530 \u5247\u96c4\u3001\u4e95\u4e0a \u4fee\u4e00\u90ce\u3001\u201d\u91cf\u5b50\u30d1\u30eb\u30b9\u30b2\u30fc\u30c8\u3092\u7528\u3044\u305f\u98db\u884c\u6642\u9593\u8a08\u6e2c\u306b\u3088\u308b\u751f\u4f53\u65ad\u5c64\u64ae\u5f71\u201d\u3000\u7b2c84\u56de\u5fdc\u7528\u7269\u7406\u5b66\u4f1a\u79cb\u5b63\u5b66\u8853\u8b1b\u6f14\u4f1a, \u718a\u672c\u57ce\u30db\u30fc\u30eb, \u718a\u672c, 23p-A401-9 (Sep. 19-23, 2023). [Contributed talk]<\/li>\n
      2. \u884c\u65b9\u7965\u592a\u6717\u3001\u884c\u65b9\u76f4\u4eba\u3001\u5927\u8c37\u8061\u3001\u4e95\u4e0a\u4fee\u4e00\u90ce\u3001\u201d\u5468\u6ce2\u6570\u5b89\u5b9a\u5316\u30ec\u30fc\u30b6\u30fc\u3092\u7528\u3044\u305f\u5468\u6ce2\u6570\u9818\u57df\u91cf\u5b50\u30a6\u30a9\u30fc\u30af\u306e\u5b9f\u88c5\u201d\u3000\u7b2c84\u56de\u5fdc\u7528\u7269\u7406\u5b66\u4f1a\u79cb\u5b63\u5b66\u8853\u8b1b\u6f14\u4f1a, \u718a\u672c\u57ce\u30db\u30fc\u30eb, \u718a\u672c, 21p-P18-12 (Sep. 19-23, 2023). [Contributed poster]<\/li>\n
      3. \u884c\u65b9\u76f4\u4eba, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u201c\u504f\u6ce2\u4fdd\u6301\u30d5\u30a1\u30a4\u30d0\u5e72\u6e09\u8a08\u3092\u7528\u3044\u305f\u4f1d\u4ee4\u4ed8\u5e2f\u5358\u4e00\u5149\u5b50\u8907\u88fd\u56de\u8def,\u201d \u7b2c70\u56de\u5fdc\u7528\u7269\u7406\u5b66\u4f1a\u6625\u5b63\u5b66\u8853\u8b1b\u6f14\u4f1a, \u4e0a\u667a\u5927\u5b66, \u56db\u8c37, 16p-A405-9 (March 15-20, 2023). [Contributed talk]<\/li>\n
      4. \u5965\u5c71 \u7693\u4ecb, \u897f\u8107 \u5927\u8f14, \u677e\u91ce \u88d5, \u884c\u65b9 \u76f4\u4eba, \u4e95\u4e0a \u4fee\u4e00\u90ce, \u201c\u6a5f\u68b0\u5b66\u7fd2\u3092\u7528\u3044\u305f\u30de\u30eb\u30c1\u30e2\u30fc\u30c9\u30d5\u30a1\u30a4\u30d0\u6ce2\u9577\u7cfb\u3068\u305d\u306e\u30dd\u30a2\u30bd\u30f3\u5f37\u5ea6\u63fa\u3089\u304e\u3068\u6697\u8a08\u6570\u306b\u5bfe\u3059\u308b\u8010\u6027,\u201d \u7b2c70\u56de\u5fdc\u7528\u7269\u7406\u5b66\u4f1a\u6625\u5b63\u5b66\u8853\u8b1b\u6f14\u4f1a, \u4e0a\u667a\u5927\u5b66, \u56db\u8c37, 15p-A202-11, (March 15-20, 2023). [Contributed talk]<\/li>\n
      5. \u4e09\u679d\u7f8e\u6ce2, \u5cb8\u672c\u8aa0\u4e5f, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u5927\u8cab\u9032\u4e00\u90ce, \u201c\u6ce2\u6570\u7a7a\u9593\u306b\u304a\u3051\u308b\u5149\u30d1\u30eb\u30b9\u306e\u4f1d\u642c\u65b9\u5411\u691c\u8a3c,\u201d 2022\u5e74\u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a\u30bd\u30b5\u30a4\u30a8\u30c6\u30a3\u5927\u4f1a, C-15-24, \u30aa\u30f3\u30e9\u30a4\u30f3\u958b\u50ac, 2022. [Contributed talk]<\/li>\n
      6. \u5c0f\u6797\u958b\u4eba, \u5cb8\u672c\u8aa0\u4e5f, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u5927\u8cab\u9032\u4e00\u90ce, \u201c\u30de\u30a6\u30b9\u8133\u7c21\u6613\u30e2\u30c7\u30eb\u306b\u304a\u3051\u308b\u5149\u30d1\u30eb\u30b9\u5fdc\u7b54\u89e3\u6790,\u201d 2022\u5e74\u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a\u30bd\u30b5\u30a4\u30a8\u30c6\u30a3\u5927\u4f1a, C-15-16, \u30aa\u30f3\u30e9\u30a4\u30f3\u958b\u50ac, 2022. [Contributed talk]<\/li>\n
      7. \u4e95\u4e0a\u4fee\u4e00\u90ce\uff0c\u8429\u539f\u5e83\u63ee\uff0c\u884c\u65b9\u76f4\u4eba, \u201c\u5358\u4e00\u5149\u5b50\u5358\u4e00\u753b\u7d20\u30a4\u30e1\u30fc\u30b8\u30f3\u30b0,\u201d \u30ec\u30fc\u30b6\u30fc\u5b66\u4f1a\u5b66\u8853\u8b1b\u6f14\u4f1a\u7b2c42\u56de\u5e74\u6b21\u5927\u4f1a, (Jan. 12~14 2022)[Invited talk]<\/li>\n
      8. \u4e09\u679d\u7f8e\u6ce2, \u4e2d\u6ca2 \u4f51,\u00a0 \u5cb8\u672c \u8aa0\u4e5f,\u00a0 \u4e95\u4e0a \u4fee\u4e00\u90ce,\u00a0 \u5927\u8cab \u9032\u4e00\u90ce, \u201c\u5927\u898f\u6a21\u6955\u5186\u67f1\u5217\u30e2\u30c7\u30eb\u306b\u304a\u3051\u308b\u5149\u30d1\u30eb\u30b9\u53cd\u5c04\u7279\u6027,\u201d 2021\u5e74\u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a\u30bd\u30b5\u30a4\u30a8\u30c6\u30a3\u5927\u4f1a, C-15-5, \u30aa\u30f3\u30e9\u30a4\u30f3\u958b\u50ac, 2021.<\/li>\n
      9. \u5cb8\u672c\u8aa0\u4e5f, \u4e09\u679d\u7f8e\u6ce2, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u5927\u8cab\u9032\u4e00\u90ce, \u201cFDTD\u6cd5\u306b\u3088\u308b\u751f\u4f53\u5185\u5149\u30d1\u30eb\u30b9\u4f1d\u642c\u89e3\u6790\u306e\u57fa\u790e\u691c\u8a0e,\u201d 2021\u5e74\u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a\u7dcf\u5408\u5927\u4f1a, C-15-15, \u30aa\u30f3\u30e9\u30a4\u30f3\u958b\u50ac, 2021.<\/li>\n
      10. \u4e09\u679d\u7f8e\u6ce2, \u5cb8\u672c\u8aa0\u4e5f, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u5927\u8cab\u9032\u4e00\u90ce\uff0c\u201cFDTD\u6cd5\u306b\u3088\u308b\u7d30\u80de\u5185\u5149\u30d1\u30eb\u30b9\u53cd\u5c04\u5149\u89e3\u6790\u306e\u57fa\u790e\u691c\u8a0e\u201d\uff0c\u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a \u6771\u4eac\u652f\u90e8\u5b66\u751f\u4f1a \u7b2c26\u56de\u7814\u7a76\u767a\u8868\u4f1a\uff0c91, \u30aa\u30f3\u30e9\u30a4\u30f3\u958b\u50ac, 2021.<\/li>\n
      11. \u6d5c\u5cf6\u529f\uff0c\u5449\u8fea \uff0c\u5cb8\u672c\u8aa0\u4e5f \uff0c\u4e95\u4e0a\u4fee\u4e00\u90ce\uff0c\u5927\u8cab\u9032\u4e00\u90ce\uff0c\u201cFDFD\u6cd5\u306b\u3088\u308b\u30d7\u30e9\u30ba\u30e2\u30cb\u30c3\u30af\u5c0e\u6ce2\u8def\u306e\u89e3\u6790 \uff5e\u30b0\u30ec\u30fc\u30c6\u30a3\u30f3\u30b0\u69cb\u9020\u90e8\u306e\u91d1\u8584\u819c\u5909\u5316\u306b\u3088\u308b\u7d50\u5408\u640d\u5931\u8868\u9762\u30d7\u30e9\u30ba\u30e2\u30f3\u306e\u30e2\u30fc\u30c9\u7279\u6027\u691c\u8a3c \uff5e\u201d 2020\u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a\u7dcf\u5408\u5927\u4f1a\uff0cC-15-4\uff0c\u5e83\u5cf6\u5927\u5b66\uff0c2020\uff0e<\/li>\n
      12. \u8429\u539f\u5e83\u63ee, \u6a2a\u7530\u4e00\u5e83, \u884c\u65b9\u76f4\u4eba, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u201c\u6975\u5fae\u5f31\u5149\u30fb\u91cf\u5b50\u5149\u3092\u7528\u3044\u305f\u5358\u4e00\u753b\u7d20\u5727\u7e2e\u30a4\u30e1\u30fc\u30b8\u30f3\u30b0\u306e\u691c\u8a0e\u201d\u3000\u7b2c80\u56de\u5fdc\u7528\u7269\u7406\u5b66\u4f1a\u79cb\u5b63\u5b66\u8853\u8b1b\u6f14\u4f1a, \u5317\u6d77\u9053\u5927\u5b66, 19p-E319-1 (9.18-21. 2019).[Contributed talk]<\/li>\n
      13. \u4e2d\u62d3\u4e5f, \u5c0f\u6797\u7a1c, \u884c\u65b9 \u76f4\u4eba, \u798f\u7530\u5927\u6cbb ,\u4e95\u4e0a\u4fee\u4e00\u90ce, \u201c\u9577\u8ddd\u96e2\u4f1d\u642c\u578b\u30d7\u30e9\u30ba\u30e2\u30f3\u30dd\u30e9\u30ea\u30c8\u30f3\u5c0e\u6ce2\u8def\u306e\u6db2\u4f53\u7a92\u7d20\u6e29\u5ea6\u306b\u304a\u3051\u308b\u4f1d\u64ad\u640d\u5931\u8a55\u4fa1,\u201d \u7b2c66 \u56de\u5fdc\u7528\u7269\u7406\u5b66\u4f1a\u6625\u5b63\u5b66\u8853\u8b1b\u6f14\u4f1a, \u6771\u4eac\u5de5\u696d\u5927\u5b66, 11p-PB1-31, (2019. 3.9-12). [Contributed poster]<\/li>\n
      14. \u5c0f\u6797\u7a1c, \u4e2d\u62d3\u4e5f, \u591a\u7530\u5f6c\u5b50, \u884c\u65b9\u76f4\u4eba, \u798f\u7530\u5927\u6cbb, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u201c\u91cf\u5b50\u30a6\u30a9\u30fc\u30af\u30b7\u30df\u30e5\u30ec\u30fc\u30bf\u30fc\u306e\u305f\u3081\u306e\u606d\u8ddd\u96e2\u4f1d\u64ad\u578b\u8868\u9762\u30d7\u30e9\u30ba\u30e2\u30f3\u30dd\u30e9\u30ea\u30c8\u30f3\u30ab\u30d7\u30e9\u306e\u8a55\u4fa1,\u201d \u7b2c66\u56de\u5fdc\u7528\u7269\u7406\u5b66\u4f1a\u6625\u5b63\u5b66\u8853\u8b1b\u6f14\u4f1a, \u6771\u4eac\u5de5\u696d\u5927\u5b66, 10p-S422-9, (2019. 3.9-12). [Contributed talk]<\/li>\n
      15. \u6d5c\u5cf6\u529f, \u5449\u8fea, \u5cb8\u672c\u8aa0\u4e5f, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u5927\u8cab\u9032\u4e00\u90ce, \u201c\u30b0\u30ec\u30fc\u30c6\u30a3\u30f3\u30b0\u69cb\u9020\u3092\u7528\u3044\u305f\u9577\u8ddd\u96e2\u4f1d\u642c\u30d7\u30e9\u30ba\u30e2\u30f3\u89e3\u6790\u306e\u57fa\u790e\u691c\u8a3c,\u201d 2019\u5e74\u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a\u30a8\u30ec\u30af\u30c8\u30ed\u30cb\u30af\u30b9\u30bd\u30b5\u30a4\u30a8\u30c6\u30a3\u5927\u4f1a, C-15-23, \u5927\u962a\u5927\u5b66, 2019.<\/li>\n
      16. \u5449\u8fea, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u5927\u8cab\u9032\u4e00\u90ce, \u201c\u91cf\u5b50\u30a6\u30a9\u30fc\u30af\u306e\u5b9f\u73fe\u306b\u5411\u3051\u305f\u30d7\u30e9\u30ba\u30e2\u30cb\u30c3\u30af\u5c0e\u6ce2\u8def\u30a2\u30ec\u30a4\u306e\u57fa\u790e\u691c\u8a0e,\u201d 2019\u5e74\u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a\u30a8\u30ec\u30af\u30c8\u30ed\u30cb\u30af\u30b9\u30bd\u30b5\u30a4\u30a8\u30c6\u30a3\u5927\u4f1a, C-1-3, \u5927\u962a\u5927\u5b66, 2019.<\/li>\n
      17. \u4e2d\u62d3\u4e5f, \u5c0f\u6797\u7a1c, \u884c\u65b9 \u76f4\u4eba, \u798f\u7530\u5927\u6cbb ,\u4e95\u4e0a\u4fee\u4e00\u90ce, \u201c\u9577\u8ddd\u96e2\u4f1d\u642c\u578b\u30d7\u30e9\u30ba\u30e2\u30f3\u30dd\u30e9\u30ea\u30c8\u30f3\u5c0e\u6ce2\u8def\u306e\u6db2\u4f53\u7a92\u7d20\u6e29\u5ea6\u306b\u304a\u3051\u308b\u4f1d\u64ad\u640d\u5931\u8a55\u4fa1,\u201d \u7b2c66 \u56de\u5fdc\u7528\u7269\u7406\u5b66\u4f1a\u6625\u5b63\u5b66\u8853\u8b1b\u6f14\u4f1a, \u6771\u4eac\u5de5\u696d\u5927\u5b66, 11p-PB1-31, (2019. 3.9-12). [Contributed poster]<\/li>\n
      18. \u5c0f\u6797\u7a1c, \u4e2d\u62d3\u4e5f, \u591a\u7530\u5f6c\u5b50, \u884c\u65b9\u76f4\u4eba, \u798f\u7530\u5927\u6cbb, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u201c\u91cf\u5b50\u30a6\u30a9\u30fc\u30af\u30b7\u30df\u30e5\u30ec\u30fc\u30bf\u30fc\u306e\u305f\u3081\u306e\u606d\u8ddd\u96e2\u4f1d\u64ad\u578b\u8868\u9762\u30d7\u30e9\u30ba\u30e2\u30f3\u30dd\u30e9\u30ea\u30c8\u30f3\u30ab\u30d7\u30e9\u306e\u8a55\u4fa1,\u201d \u7b2c66\u56de\u5fdc\u7528\u7269\u7406\u5b66\u4f1a\u6625\u5b63\u5b66\u8853\u8b1b\u6f14\u4f1a, \u6771\u4eac\u5de5\u696d\u5927\u5b66, 10p-S422-9, (2019. 3.9-12). [Contributed talk]<\/li>\n
      19. \u5c0f\u6797\u7a1c, \u4e2d\u62d3\u4e5f, \u884c\u65b9\u76f4\u4eba, \u798f\u7530\u5927\u6cbb, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u201c\u9023\u7d9a\u6642\u9593\u91cf\u5b50\u30a6\u30a9\u30fc\u30af\u30b7\u30df\u30e5\u30ec\u30fc\u30bf\u30fc\u306b\u5411\u3051\u305f\u30d7\u30e9\u30ba\u30e2\u30f3\u5c0e\u6ce2\u8def\u30ab\u30d7\u30e9\u306e\u8a55\u4fa1,\u201d \u65e5\u672c\u5149\u5b66\u4f1a\u30ca\u30ce\u30aa\u30d7\u30c6\u30a3\u30af\u30b9\u7814\u7a76\u4f1a\u30b0\u30eb\u30fc\u30d7\u7b2c25\u56de\u7814\u7a76\u8a0e\u8ad6\u4f1a, \u5fb3\u5cf6\u5927\u5b66, (2018.11.20-21). [Contributed talk]<\/li>\n
      20. \u591a\u7530\u5f6c\u5b50, \u884c\u65b9\u76f4\u4eba, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u201c10GHz\u7e70\u308a\u8fd4\u3057\u52b1\u8d77\u30ec\u30fc\u30b6\u3092\u7528\u3044\u305f\u4f1d\u4ee4\u4ed8\u304d\u5358\u4e00\u5149\u5b50\u6e90,\u201d \u7b2c79\u56de\u5fdc\u7528\u7269\u7406\u5b66\u4f1a\u79cb\u5b63\u5b66\u8853\u8b1b\u6f14\u4f1a, \u540d\u53e4\u5c4b\u56fd\u969b\u4f1a\u8b70\u5834, 19a-PA5-2 (2018. 9.18-21). [Contributed poster]<\/li>\n
      21. \u5c0f\u6797\u7a1c, \u4e2d\u62d3\u4e5f, \u85e4\u4e95\u525b, \u884c\u65b9\u76f4\u4eba, \u798f\u7530\u5927\u6cbb, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u201c\u9023\u7d9a\u6642\u9593\u91cf\u5b50\u30a6\u30a9\u30fc\u30af\u30b7\u30df\u30e5\u30ec\u30fc\u30bf\u30fc\u306b\u5411\u3051\u305f\u30d7\u30e9\u30ba\u30e2\u30f3\u5c0e\u6ce2\u8def\u30ab\u30d7\u30e9\u306e\u8a66\u4f5c\u201d, \u7b2c79\u56de\u5fdc\u7528\u7269\u7406\u5b66\u4f1a\u79cb\u5b63\u5b66\u8853\u8b1b\u6f14\u4f1a, \u540d\u53e4\u5c4b\u56fd\u969b\u4f1a\u8b70\u5834, 19p-PA7-14 (2018. 9.18-21). [Contributed poster]<\/li>\n
      22. \u670d\u90e8\u9999\u91cc, \u4e39\u7fbd\u4e00\u6a39, \u6cbc\u7530\u5b5d\u4e4b, \u5c0f\u6797\u7a1c, \u9df9\u5de3\u5e78\u5b50, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u798f\u7530\u5927\u6cbb, \u201c\u53ef\u8996\u5149\u7528\u8d85\u4f1d\u5c0e\u8ee2\u79fb\u7aef\u30bb\u30f3\u30b5\u306e\u5fdc\u7b54\u7279\u6027,\u201d \u7b2c79\u56de\u5fdc\u7528\u7269\u7406\u5b66\u4f1a\u79cb\u5b63\u5b66\u8853\u8b1b\u6f14\u4f1a, \u540d\u53e4\u5c4b\u56fd\u969b\u4f1a\u8b70\u5834, 20p-212B-6 (2018. 9.18-21). [Contributed talk]<\/li>\n
      23. \u5c0f\u6797\u7a1c, \u670d\u90e8\u9999\u91cc, \u4e2d\u7530\u76f4\u6a39, \u9df9\u5de3\u5e78\u5b50, \u4e39\u7fbd\u4e00\u6a39, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u798f\u7530\u5927\u6cbb, \u201c\u5149\u30d5\u30a1\u30a4\u30d0\u30fc\u81ea\u5df1\u6574\u5408\u69cb\u9020\u3092\u7528\u3044\u305f\u8d85\u4f1d\u5c0e\u8ee2\u79fb\u7aef\u30bb\u30f3\u30b5\u30a2\u30ec\u30a4\u306e\u958b\u767a,\u201d \u7b2c79\u56de\u5fdc\u7528\u7269\u7406\u5b66\u4f1a\u79cb\u5b63\u5b66\u8853\u8b1b\u6f14\u4f1a, \u540d\u53e4\u5c4b\u56fd\u969b\u4f1a\u8b70\u5834, 20p-212B-7 (2018. 9.18-21). [Contributed talk]<\/li>\n
      24. \u4e2d\u62d3\u4e5f\u3001\u884c\u65b9 \u76f4\u4eba\u3001\u4e95\u4e0a \u4fee\u4e00\u90ce, \u201c\u7dda\u5f15\u304d\u6cd5\u306b\u3088\u308bAu\u57cb\u3081\u8fbc\u307f\u30ac\u30e9\u30b9\u30d5\u30a1\u30a4\u30d0\u306e\u8a66\u4f5c,\u201d \u7b2c65 \u56de\u5fdc\u7528\u7269\u7406\u5b66\u4f1a\u6625\u5b63\u5b66\u8853\u8b1b\u6f14\u4f1a, \u65e9\u7a32\u7530\u5927\u5b66, 18-P9-12, (2018. 3.17-20). [Contributed poster]<\/li>\n
      25. \u670d\u90e8\u9999\u91cc, \u5c0f\u6797\u7a1c, \u4e39\u7fbd\u4e00\u6a39, \u6cbc\u7530\u5b5d\u4e4b, \u4e95\u4e0a\u4fee\u4e00\u90ce, \u798f\u7530\u5927\u6cbb, \u201c\u53ef\u8996\u5149\u7528\u8d85\u4f1d\u5c0e\u8ee2\u79fb\u7aef\u30bb\u30f3\u30b5\u306e\u691c\u51fa\u52b9\u7387\u6ce2\u9577\u4f9d\u5b58\u6027\u8a55\u4fa1,\u201d \u7b2c65 \u56de\u5fdc\u7528\u7269\u7406\u5b66\u4f1a\u6625\u5b63\u5b66\u8853\u8b1b\u6f14\u4f1a, \u65e9\u7a32\u7530\u5927\u5b66, 19-B303-1, (2018. 3.17-20). [Contributed talk]<\/li>\n
      26. \u00a0<\/li>\n<\/ol>\n<\/section>\n
        \n

        \u7279\u8a31\uff08Patents\uff09<\/h4>\n
          \n
        1. \u5149\u901a\u4fe1\u6ce2\u9577\u5e2f\u306b\u304a\u3051\u308b\u9ad8\u901f\u30d1\u30eb\u30b9\u578b\u30db\u30e2\u30c0\u30a4\u30f3\u691c\u6ce2\u5668\uff08\u51fa\u9858\u756a\u53f7\uff1a2008-247073\uff09<\/li>\n
        2. High-speed single-photon detector in telecommunication wavelength band\u3000(U.S. Patent Number : 7705284 B2)<\/li>\n
        3. \u504f\u5149\u30a8\u30f3\u30bf\u30f3\u30b0\u30eb\u30c9\u5149\u5b50\u5bfe\u767a\u751f\u88c5\u7f6e\uff08\u51fa\u9858\u756a\u53f7\uff1a2004-071909\uff0c\u65e5\u672c\u767b\u9332\u756a\u53f7\uff1a4264735\uff09<\/li>\n
        4. \u5358\u4e00\u5149\u5b50\u767a\u751f\u88c5\u7f6e\uff08\u51fa\u9858\u756a\u53f7\uff1a2003-117055\uff0c\u82f1\u56fd\u767b\u9332\u756a\u53f7\uff1aGB2419248\uff09<\/li>\n
        5. \u9577\u8ddd\u96e2\u91cf\u5b50\u6697\u53f7\u30b7\u30b9\u30c6\u30e0\uff08\u51fa\u9858\u756a\u53f7\uff1a2002-091578\uff0c\u65e5\u672c\u767b\u9332\u756a\u53f7\uff1a4086136\uff09<\/li>\n<\/ol>\n<\/section>\n
          \n

          \u516c\u7684\u5916\u90e8\u7372\u5f97\u7814\u7a76\u8cbb\u3000\uff08Research Grants\uff09<\/h4>\n
            \n
          1. \u884c\u65b9\u76f4\u4eba\uff08\u7814\u7a76\u4ee3\u8868\u8005\uff09, “\u5468\u6ce2\u6570\u5b89\u5b9a\u5316\u30ec\u30fc\u30b6\u30fc\u3092\u7528\u3044\u305f\u5883\u754c\u3092\u6709\u3059\u308b\u5149\u5468\u6ce2\u6570\u9818\u57df\u91cf\u5b50\u30a6\u30a9\u30fc\u30af\u30b7\u30df\u30e5\u30ec\u30fc\u30bf\u306e\u5b9f\u88c5,” \u677e\u5c3e\u5b66\u8853\u632f\u8208\u8ca1\u56e3\u3000\u7b2c36\u56de\u677e\u5c3e\u5b66\u8853\u7814\u7a76\u52a9\u6210 (2023-2024).<\/li>\n
          2. \u4e95\u4e0a\u4fee\u4e00\u90ce(\u7814\u7a76\u4ee3\u8868), \u884c\u65b9\u76f4\u4eba(\u7814\u7a76\u5206\u62c5\u8005), \u201c\u91cf\u5b50\u30d1\u30eb\u30b9\u30b2\u30fc\u30c8\u306b\u3088\u308b\u6975\u9650\u5fae\u5f31\u5149\u3092\u7528\u3044\u305f\u751f\u4f53\u65ad\u5c64\u64ae\u5f71\u6280\u8853\u306e\u5275\u6210,\u201d \u79d1\u5b66\u7814\u7a76\u8cbb\u88dc\u52a9\u91d1(\u6311\u6226\u7684\u7814\u7a76\u30fb\u958b\u62d3),(2021-\u7d99\u7d9a\u4e2d) .<\/li>\n
          3. \u4e95\u4e0a\u4fee\u4e00\u90ce(\u7814\u7a76\u4ee3\u8868), \u884c\u65b9\u76f4\u4eba(\u7814\u7a76\u5206\u62c5\u8005), \u201c\u8d85\u5e83\u5e2f\u57df\u91cf\u5b50\u3082\u3064\u308c\u5149\u5b50\u5bfe\u3068\u8d85\u4f1d\u5c0e\u8ee2\u79fb\u7aef\u30bb\u30f3\u30b5\u306b\u3088\u308b\u5358\u4e00\u5149\u5b50\u5358\u4e00\u753b\u7d20\u30a4\u30e1\u30fc\u30b8\u30f3\u30b0,\u201d \u79d1\u5b66\u7814\u7a76\u8cbb\u88dc\u52a9\u91d1\u3000\u57fa\u76e4\u7814\u7a76\u3000B (2019-2021) .<\/li>\n
          4. \u4e95\u4e0a\u4fee\u4e00\u90ce(\u5171\u540c\u7814\u7a76\u8005), \u884c\u65b9\u76f4\u4eba(\u5171\u540c\u7814\u7a76\u8005), \u201c\u5149\u5b50\u6570\u8b58\u5225\u91cf\u5b50\u30ca\u30ce\u30d5\u30a9\u30c8\u30cb\u30af\u30b9\u306e\u5275\u6210,\u201d \u5149\u30fb\u91cf\u5b50\u30d5\u30e9\u30c3\u30b0\u30b7\u30c3\u30d7\u30d7\u30ed\u30b0\u30e9\u30e0(\u57fa\u790e\u57fa\u76e4\u7814\u7a76), (2018-2022).<\/li>\n
          5. \u4e95\u4e0a\u4fee\u4e00\u90ce(\u7814\u7a76\u4ee3\u8868), \u884c\u65b9\u76f4\u4eba(\u7814\u7a76\u5206\u62c5\u8005), \u201c\u30d7\u30e9\u30ba\u30e2\u30cb\u30c3\u30af\u91cf\u5b50\u30c7\u30d0\u30a4\u30b9\u306e\u958b\u767a\u3068\u305d\u306e\u91cf\u5b50\u30a6\u30a9\u30fc\u30af\u3078\u306e\u5fdc\u7528,\u201d \u79d1\u5b66\u7814\u7a76\u8cbb\u88dc\u52a9\u91d1(\u65b0\u5b66\u8853\u9818\u57df, \u516c\u52df) (2018-2020) .<\/li>\n
          6. \u884c\u65b9\u76f4\u4eba(\u7814\u7a76\u4ee3\u8868), \u201c\u30b9\u30c8\u30ec\u30fc\u30c8\u30d5\u30a9\u30ef\u30fc\u30c9\u578b\u591a\u5149\u5b50\u5e72\u6e09\u56de\u8def\u3092\u7528\u3044\u305f\u5149\u91cf\u5b50\u30b7\u30df\u30e5\u30ec\u30fc\u30bf\u306e\u958b\u767a,\u201d \u79d1\u5b66\u7814\u7a76\u8cbb\u88dc\u52a9\u91d1 \u57fa\u76e4\u7814\u7a76C (2017-2020).<\/li>\n
          7. \u884c\u65b9\u76f4\u4eba(\u7814\u7a76\u4ee3\u8868), \u201c\u6b63\u5f26\u96fb\u5727\u30b2\u30fc\u30c8\u52d5\u4f5c\u578b\u30b7\u30ea\u30b3\u30f3\u96ea\u5d29\u30d5\u30a9\u30c8\u30c0\u30a4\u30aa\u30fc\u30c9\u306b\u3088\u308b\u5149\u691c\u51fa\u306b\u95a2\u3059\u308b\u7814\u7a76,\u201d \u79d1\u5b66\u7814\u7a76\u8cbb\u88dc\u52a9\u91d1\u3000\u57fa\u76e4\u7814\u7a76C\u3000(2014-2017)<\/li>\n
          8. \u884c\u65b9\u76f4\u4eba(\u7814\u7a76\u4ee3\u8868), \u201c\u5316\u5408\u7269\u534a\u5c0e\u4f53\u5149\u5b50\u691c\u51fa\u5668\u306b\u3088\u308b\u9ad8\u5fe0\u5b9f\u5ea6\u504f\u5149\u91cf\u5b50\u3082\u3064\u308c\u4ea4\u63db\u6280\u8853\u306b\u95a2\u3059\u308b\u7814\u7a76,\u201d \u6587\u79d1\u7701\u79d1\u5b66\u7814\u7a76\u8cbb\u88dc\u52a9\u91d1 \u82e5\u624b\u7814\u7a76B (2011-2013).<\/li>\n
          9. \u884c\u65b9\u76f4\u4eba(\u7814\u7a76\u4ee3\u8868),\u300c\u901a\u4fe1\u6ce2\u9577\u5e2f\u7528\u30ae\u30ac\u30d8\u30eb\u30c4\u7e70\u308a\u8fd4\u3057\u5358\u4e00\u5149\u5b50\u691c\u51fa\u5668\u306e\u958b\u767a\u3068\u91cf\u5b50\u9375\u914d\u5e03\u3078\u306e\u5fdc\u7528\u300d\u6587\u79d1\u7701\u79d1\u5b66\u7814\u7a76\u52a9\u6210\u91d1 \u82e5\u624b\u7814\u7a76B (2009-2011).<\/li>\n
          10. \u4e95\u4e0a\u4fee\u4e00\u90ce\uff08\u7814\u7a76\u4ee3\u8868\u8005\uff09, \u201c\u8d85\u4f1d\u5c0e\u5149\u5b50\u691c\u51fa\u5668\u306b\u3088\u308b\u91cf\u5b50\u3082\u3064\u308c\u6ce2\u9577\u591a\u91cd\u91cf\u5b50\u6697\u53f7\u901a\u4fe1\u6280\u8853\u306b\u95a2\u3059\u308b\u7814\u7a76,\u201d, \u7dcf\u52d9\u7701\u6226\u7565\u7684\u60c5\u5831\u901a\u4fe1\u7814\u7a76\u958b\u767a\u63a8\u9032\u5236\u5ea6 (SCOPE)(2010-2012).<\/li>\n
          11. \u4e95\u4e0a\u4fee\u4e00\u90ce, \u201c\u901a\u4fe1\u6ce2\u9577\u5e2f\u306b\u304a\u3044\u3066\u591a\u5149\u5b50\u30a8\u30f3\u30bf\u30f3\u30b0\u30eb\u30c9\u72b6\u614b\u3092\u751f\u6210\u3057\u3001\u91cf\u5b50\u60c5\u5831\u901a\u4fe1\u3078\u306e\u5fdc\u7528\u5b9f\u9a13\u3092\u884c\u3046,\u201d \u79d1\u5b66\u7814\u7a76\u8cbb\u88dc\u52a9\u91d1\u3000\u5916\u56fd\u4eba\u7279\u5225\u7814\u7a76\u54e1\u5968\u52b1\u8cbb (2005-2007).<\/li>\n
          12. \u4e95\u4e0a\u4fee\u4e00\u90ce(\u7814\u7a76\u5206\u62c5\u8005), \u201c\u5149\u30d5\u30a1\u30a4\u30d0\u30fc\u901a\u4fe1\u6ce2\u9577\u5e2f\u91cf\u5b50\u30c9\u30c3\u30c8\u3092\u7528\u3044\u305f\u9ad8\u6b21\u6a5f\u80fd\u5149\u5b50\u6e90\u306e\u7814\u7a76,\u201d \u79d1\u5b66\u7814\u7a76\u8cbb\u88dc\u52a9\u91d1\u3000\u7279\u5b9a\u9818\u57df\u7814\u7a76 (2005-2008).<\/li>\n
          13. \u4e95\u4e0a\u4fee\u4e00\u90ce (\u7814\u7a76\u4ee3\u8868\u8005) , \u201c\u5149\u901a\u4fe1\u6ce2\u9577\u5e2f\u91cf\u5b50\u5236\u5fa1\u5149\u5909\u5fa9\u8abf\u6280\u8853\u306e\u7814\u7a76\u958b\u767a,\u201d \u60c5\u5831\u901a\u4fe1\u7814\u7a76\u6a5f\u69cb\u3000\u59d4\u8a17\u7814\u7a76, (2004-2008).<\/li>\n
          14. \u4e95\u4e0a\u4fee\u4e00\u90ce\uff08\u7814\u7a76\u4ee3\u8868\u8005\uff09, \u201c\u7121\u76f8\u4e92\u4f5c\u7528\u30a4\u30e1\u30fc\u30b8\u30f3\u30b0\uff0d\u91cf\u5b50\u30ab\u30e1\u30e9\u306e\u88fd\u4f5c,\u201d \u79d1\u5b66\u7814\u7a76\u8cbb\u88dc\u52a9\u91d1\u3000\u57fa\u76e4\u7814\u7a76\uff23\uff08\uff12\uff09(2001-2002).<\/li>\n
          15. \u4e95\u4e0a\u4fee\u4e00\u90ce\uff08\u7814\u7a76\u4ee3\u8868\u8005\uff09, \u201c\u504f\u5149\u5e72\u6e09\u8a08\u3092\u7528\u3044\u305f\u91cf\u5b50\u6697\u53f7\u30b7\u30b9\u30c6\u30e0\u306e\u958b\u767a,\u201d \u5927\u5ddd\u60c5\u5831\u901a\u4fe1\u57fa\u91d1\u3000\uff082000-2001\uff09.<\/li>\n<\/ol>\n<\/section>\n<\/section>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n<\/div>\n","protected":false},"excerpt":{"rendered":"

            \u8ad6\u6587\uff08Papers\uff09 N. Namekata, N. Kobayashi, K. Nomura, T. Sako, N. Takata, and S. Inoue, \u201dQuantum optical tomography […]<\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_locale":"ja","_original_post":"http:\/\/www.quant-ph.cst.nihon-u.ac.jp\/qog-nu\/?page_id=14"},"_links":{"self":[{"href":"https:\/\/www.quant-ph.cst.nihon-u.ac.jp\/qog-nu\/index.php?rest_route=\/wp\/v2\/pages\/14"}],"collection":[{"href":"https:\/\/www.quant-ph.cst.nihon-u.ac.jp\/qog-nu\/index.php?rest_route=\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/www.quant-ph.cst.nihon-u.ac.jp\/qog-nu\/index.php?rest_route=\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/www.quant-ph.cst.nihon-u.ac.jp\/qog-nu\/index.php?rest_route=\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/www.quant-ph.cst.nihon-u.ac.jp\/qog-nu\/index.php?rest_route=%2Fwp%2Fv2%2Fcomments&post=14"}],"version-history":[{"count":11,"href":"https:\/\/www.quant-ph.cst.nihon-u.ac.jp\/qog-nu\/index.php?rest_route=\/wp\/v2\/pages\/14\/revisions"}],"predecessor-version":[{"id":483,"href":"https:\/\/www.quant-ph.cst.nihon-u.ac.jp\/qog-nu\/index.php?rest_route=\/wp\/v2\/pages\/14\/revisions\/483"}],"wp:attachment":[{"href":"https:\/\/www.quant-ph.cst.nihon-u.ac.jp\/qog-nu\/index.php?rest_route=%2Fwp%2Fv2%2Fmedia&parent=14"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}