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2021
1. Fan, Y. R. Yuan, C. Z. Zhang, R. M. Shen, S. Wu, P. Wang, H. Q. Li, H. Deng, G. W. Song, H. Z. You, L. X. Wang, Z. Wang, Y. Guo, G. C. Zhou, Q. Effect of dispersion on indistinguishability between single-photon wave-packets[J]. Photonics Research, 2021, 9(6): 1134-1143.
2. Liu, H. Jiang, C. Zhu, H. T. Zou, M. Yu, Z. W. Hu, X. L. Xu, H. Ma, S. Z. Han, Z. Y. Chen, J. P. Dai, Y. Q. Tang, S. B. A. Zhang, W. J. Li, H. You, L. X. Wang, Z. Hua, Y. Hu, H. K. Zhang, H. B. Zhou, F. Zhang, Q. Wang, X. B. Chen, T. Y. Pan, J. W. Field Test of Twin-Field Quantum Key Distribution through Sending-or-Not-Sending over 428 km[J]. Physical Review Letters, 2021, 126(25): 250502.
3. Zhou, J. Y. Li, Q. Hao, Z. Y. Yan, F. F. Yang, M. Wang, J. F. Lin, W. X. Liu, Z. H. Liu, W. Li, H. You, L. X. Xu, J. S. Li, C. A. F. Guo, G. C. Experimental determination of the dipole orientation of single color centers in silicon carbide[J]. ACS Photonics, 2021, 8(8): 2384-2391.
4. Liu, H. Jiang, C. Zhu, H. T. Zou, M. Yu, Z. W. Hu, X. L. Xu, H. Ma, S. Z. Han, Z. Y. Chen, J. P. Dai, Y. Q. Tang, S. B. A. Zhang, W. J. Li, H. You, L. X. Wang, Z. Hua, Y. Hu, H. K. Zhang, H. B. Zhou, F. Zhang, Q. Wang, X. B. Chen, T. Y. Pan, J. W. Field demonstration of distributed quantum sensing without post-selection[J]. Physical Review X, 2021, 11(3): 031009.
5. Yu, S. F. Zhang, Z. Xia, H. Y. Dou, X. K. Wu, T. F. Hu, Y. H. Li, M. Y. Shangguan, M. J. Wei, T. W. Zhao, L. J. Wang, L. Jiang, P. Zhang, C. J. You, L. X. Tao, L. G. Qiu, J. W. Photon-counting distributed free-space spectroscopy[J]. Light: Science & Applications, 2021, 10(1): 1-10.
6. Lin, W. X. Yan, F. F. Li, Q. Wang, J. F. Hao, Z. H. Zhou, J. Y. Li, H. You, L. X. Xu, J. S. Li, C. F. Guo, G. C. Temperature dependence of divacancy spin coherence in implanted silicon carbide[J]. Physical Review B, 2021, 104(12): 125305
7. Zhong, H. S. Deng, Y. H. Qin, J. Wang, H. Chen, M. C. Peng, L. C. Luo, Y. H. Wu, D. Gong, S. Q. Su, H. Hu, Y. Hu, P. Yang, X. Y. Zhang, W. J. Li, H. Li, Y. X. Jiang, X. Gan, L. Yang, G. W. You, L. X. Wang, Z. Li, L. Liu, N. L. Renema, J. J. Lu, C. Y. Pan, J. W. Phase-programmable Gaussian boson sampling using stimulated squeezed light[J]. Physical review letters, 2021, 127(18): 180502.
2020
1. H.-S. Zhong, H. Wang, Y.-H. Deng, M.-C. Chen, L.-C. Peng, Y.-H. Luo, J. Qin, D. Wu, X. Ding, Y. Hu, P. Hu, X.-Y. Yang, W.-J. Zhang, H. Li, Y. Li, X. Jiang, L. Gan, G. Yang, L. You, Z. Wang, L. Li, N.-L. Liu, C.-Y. Lu and J.-W. Pan. Quantum computational advantage using photons. Science 370(6523): 1460. (2020)
2. X.-Y. Zhang, Y.-L. Wang, C.-L. Lv, L.-X. You, H. Li, Z. Wang and X.-M. Xie. Flux-to-voltage characteristic simulation of superconducting nanowire interference device. Chinese Physics B 29(9): 098501. (2020)
3. L. Zhang, L. You, W. Peng and Z. Wang. Quasiparticle scattering time in NbN superconducting thin films. Physica C: Superconductivity and its Applications 579: 1353773. (2020)
4. Y. Yu, F. Ma, X.-Y. Luo, B. Jing, P.-F. Sun, R.-Z. Fang, C.-W. Yang, H. Liu, M.-Y. Zheng, X.-P. Xie, W.-J. Zhang, L.-X. You, Z. Wang, T.-Y. Chen, Q. Zhang, X.-H. Bao and J.-W. Pan. Entanglement of two quantum memories via fibres over dozens of kilometres. Nature 578(7794): 240. (2020)
5. L. You. Superconducting nanowire single-photon detectors for quantum information. Nanophotonics 9(9): 2673. (2020)
6. C. YANG, M. SI and L. YOU. Superconducting X-ray detectors. SCIENCE CHINA Information Sciences 63(8): 180502. (2020)
7. K. Wei, W. Li, H. Tan, Y. Li, H. Min, W.-J. Zhang, H. Li, L. You, Z. Wang, X. Jiang, T.-Y. Chen, S.-K. Liao, C.-Z. Peng, F. Xu and J.-W. Pan. High-Speed Measurement-Device-Independent Quantum Key Distribution with Integrated Silicon Photonics. Physical Review X 10(3): 031030. (2020)
8. L. Parlato, D. Salvoni, M. Ejrnaes, D. Massarotti, R. Caruso, R. Satariano, F. Tafuri, X. Y. Yang, L. You, Z. Wang, G. P. Pepe and R. Cristiano. The Role of Multiple Fluctuation Events in NbN and NbTiN Superconducting Nanostrip Single-Photon Detectors. Journal of Low Temperature Physics 199(1): 6. (2020)
9. M. Nazir, X. Yang, H. Tian, P. Song, Z. Wang, Z. Xiang, X. Guo, Y. Jin, L. You and D. Zheng. Investigation of dimensionality in superconducting NbN thin film samples with different thicknesses and NbTiN meander nanowire samples by measuring the upper critical field. Chinese Physics B 29(8): 087401. (2020)
10. Y. Mao, Y.-Z. Zhen, H. Liu, M. Zou, Q.-J. Tang, S.-J. Zhang, J. Wang, H. Liang, W. Zhang, H. Li, L. You, Z. Wang, L. Li, N.-L. Liu, K. Chen, T.-Y. Chen and J.-W. Pan. Experimentally Verified Approach to Nonentanglement-Breaking Channel Certification. Physical Review Letters 124(1): 010502. (2020)
11. X. Liu, X. Yao, R. Xue, H. Wang, H. Li, Z. Wang, L. You, X. Feng, F. Liu, K. Cui, Y. Huang and W. Zhang. An entanglement-based quantum network based on symmetric dispersive optics quantum key distribution. APL Photonics 5(7): 076104. (2020)
12. B. Li, R. Zhang, Y. Wang, H. Li, L. You, Z. Ou, H. Zhou, Y. Ling, Y. Wang, G. Deng, Y. Wang, H. Song, K. Qiu and Q. Zhou. Dispersion independent long-haul photon-counting optical time-domain reflectometry. Optics Letters 45(9): 2640. (2020)
13. P. Hu, H. Li, L. You, H. Wang, Y. Xiao, J. Huang, X. Yang, W. Zhang, Z. Wang and X. Xie. Detecting single infrared photons toward optimal system detection efficiency. Optics Express 28(24): 36884. (2020)
14. X. Hou, N. Yao, L. You, H. Li, W. Fang, W. Zhang, Z. Wang, L. Tong and X. Xie. Measuring the refractive index of optical adhesives at cryogenic temperatures. Applied Optics 59(7): 1841. (2020)
15. X.-T. Fang, P. Zeng, H. Liu, M. Zou, W. Wu, Y.-L. Tang, Y.-J. Sheng, Y. Xiang, W. Zhang, H. Li, Z. Wang, L. You, M.-J. Li, H. Chen, Y.-A. Chen, Q. Zhang, C.-Z. Peng, X. Ma, T.-Y. Chen and J.-W. Pan. Implementation of quantum key distribution surpassing the linear rate-transmittance bound. Nature Photonics 14(7): 422. (2020)
16. J.-P. Chen, C. Zhang, Y. Liu, C. Jiang, W. Zhang, X.-L. Hu, J.-Y. Guan, Z.-W. Yu, H. Xu, J. Lin, M.-J. Li, H. Chen, H. Li, L. You, Z. Wang, X.-B. Wang, Q. Zhang and J.-W. Pan. Sending-or-Not-Sending with Independent Lasers: Secure Twin-Field Quantum Key Distribution over 509 km. Physical Review Letters 124(7): 070501. (2020)
17. Y. Cao, Y.-H. Li, K.-X. Yang, Y.-F. Jiang, S.-L. Li, X.-L. Hu, M. Abulizi, C.-L. Li, W. Zhang, Q.-C. Sun, W.-Y. Liu, X. Jiang, S.-K. Liao, J.-G. Ren, H. Li, L. You, Z. Wang, J. Yin, C.-Y. Lu, X.-B. Wang, Q. Zhang, C.-Z. Peng and J.-W. Pan. Long-Distance Free-Space Measurement-Device-Independent Quantum Key Distribution. Physical Review Letters 125(26): 260503. (2020)
2019
1.W. J. Zhang, Q. Jia, L. X. You, X. Ou, H. Huang, L. Zhang, H. Li, Z. Wang, and X. M. Xie, "Saturating Intrinsic Detection Efficiency of Superconducting Nanowire Single-Photon Detectors via Defect Engineering," Physical Review Applied 12, 044040 (2019).
2.H. Li, Y. Wang, L. You, H. Wang, H. Zhou, P. Hu, W. Zhang, X. Liu, X. Yang, L. Zhang, Z. Wang, and X. Xie, "Supercontinuum single-photon detector using multilayer superconducting nanowires," Photon. Res. 7, 1425-1431 (2019).
3.H. Li, H. Wang, L. You, P. Hu, W. Shen, W. Zhang, X. Yang, L. Zhang, H. Zhou, Z. Wang, and X. Xie, "Multispectral superconducting nanowire single photon detector," Optics Express 27, 4727-4733 (2019).
4.H. Wang, H. Li, L. You, P. Hu, X. Zhang, W. Yong, W. Zhang, X. Yang, L. Zhang, H. Zhou, Z. Wang and X. Xie, Applied Optics 58 (30), 8148-8152 (2019).
5.H. Wang, H. Li, L. You, Y. Wang, L. Zhang, X. Yang, W. Zhang, Z. Wang, and X. Xie, "Fast and high efficiency superconducting nanowire single-photon detector at 630 nm wavelength," Applied Optics 58, 1868-1872 (2019).
6.W. J. Zhang, J. Huang, C. J. Zhang, L. X. You, C. L. Lv, L. Zhang, H. Li, Z. Wang, and X. M. Xie, "A 16-Pixel Interleaved Superconducting Nanowire Single-Photon Detector Array With A Maximum Count Rate Exceeding 1.5 GHz," IEEE Trans. Appl. Supercond. 29, 1-4 (2019).
7.Y. Wang, H. Li, L.-X. You, C.-L. Lv, H.-Q. Wang, X.-Y. Zhang, W.-J. Zhang, H. Zhou, L. Zhang, X.-Y. Yang, and Z. Wang, Wavelength dependence of intrinsic detection efficiency of NbN superconducting nanowire single-photon detector, Chinese Physics B 28, 078502 (2019).
8.C. J. Zhang, W. J. Zhang, J. Huang, L. X. You, H. Li, C. L. lv, T. Sugihara, M. Watanabe, H. Zhou, Z. Wang, and X. M. Xie, NbN superconducting nanowire single-photon detector with an active area of 300 μm-in-diameter, AIP Adv. 9, 075214 (2019).
9.X. Hou, N. Yao, L. You, H. Li, Y. Wang, W. Zhang, H. Wang, X. Liu, W. Fang, L. Tong, Z. Wang, and X. Xie, "Ultra-broadband microfiber-coupled superconducting single-photon detector," Optics Express 27, 25241-25250 (2019).
10.C. J. Zhang, W. J. Zhang, L. X. You, J. Huang, H. Li, X. Q. Sun, H. Q. Wang, C. L. Lv, H. Zhou, X. Y. Liu, Z. Wang, and X. M. Xie, "Suppressing Dark Counts of Multimode-Fiber-Coupled Superconducting Nanowire Single-Photon Detector," IEEE Photonics Journal 11, 1-8 (2019).
11.L. Zhang, L. You, X. Yang, Y. Tang, M. Si, K. Yan, W. Zhang, H. Li, H. Zhou, W. Peng, and Z. Wang, "Hotspot relaxation time in disordered niobium nitride films," Applied Physics Letters 115, 132602 (2019).
12.L. Yu, H. Wang, H. Li, Z. Wang, Y. Huang, L. You, and W. Zhang, A Silicon Shallow-Ridge Waveguide Integrated Superconducting Nanowire Single Photon Detector Towards Quantum Photonic Circuits, Chinese Physics Letters 36, 084202 (2019).
13.K. Wei, N. Tischler, S.-R. Zhao, Y.-H. Li, J. M. Arrazola, Y. Liu, W. Zhang, H. Li, L. You, Z. Wang, Y.-A. Chen, B. C. Sanders, Q. Zhang, G. J. Pryde, F. Xu, and J.-W. Pan, "Experimental Quantum Switching for Exponentially Superior Quantum Communication Complexity," Physical Review Letters 122, 120504 (2019).
14.H.-S. Zhong, L.-C. Peng, Y. Li, Y. Hu, W. Li, J. Qin, D. Wu, W. Zhang, H. Li, L. Zhang, Z. Wang, L. You, X. Jiang, L. Li, N.-L. Liu, J. P. Dowling, C.-Y. Lu, and J.-W. Pan, "Experimental Gaussian boson sampling," Science Bulletin 64, 511-515 (2019).
15.R. Quan, R. Dong, Y. Zhai, F. Hou, X. Xiang, H. Zhou, C. Lv, Z. Wang, L. You, T. Liu, and S. Zhang, "Simulation and realization of a second-order quantum-interference-based quantum clock synchronization at the femtosecond level," Optics Letters 44, 614-617 (2019).
16.H. Liu, W. Wang, K. Wei, X.-T. Fang, L. Li, N.-L. Liu, H. Liang, S.-J. Zhang, W. Zhang, H. Li, L. You, Z. Wang, H.-K. Lo, T.-Y. Chen, F. Xu, and J.-W. Pan, "Experimental Demonstration of High-Rate Measurement-Device-Independent Quantum Key Distribution over Asymmetric Channels," Physical Review Letters 122, 160501 (2019).
17.X. Liu, X. Yao, H. Wang, H. Li, Z. Wang, L. You, Y. Huang, and W. Zhang, "Energy-time entanglement-based dispersive optics quantum key distribution over optical fibers of 20 km," Applied Physics Letters 114, 141104 (2019).
18.M. Ejrnaes, D. Salvoni, L. Parlato, D. Massarotti, R. Caruso, F. Tafuri, X. Y. Yang, L. X. You, Z. Wang, G. P. Pepe, and R. Cristiano, "Superconductor to resistive state switching by multiple fluctuation events in NbTiN nanostrips," Scientific reports 9, 8053 (2019).
19.Q.-C. Sun, Y.-F. Jiang, B. Bai, W. Zhang, H. Li, X. Jiang, J. Zhang, L. You, X. Chen, Z. Wang, Q. Zhang, J. Fan, and J.-W. Pan, Experimental demonstration of non-bilocality with truly independent sources and strict locality constraints, Nature Photonics 13, 687–691 (2019).
20.K. J. Wei, W. J. Zhang, Y.-L. Tang, L. X. You, and F. H. Xu, Implementation security of quantum key distribution due to polarization-dependent efficiency mismatch, Physical Review A 100, 022325 (2019).
21.F. Hou, R. Quan, R. Dong, X. Xiang, B. Li, T. Liu, X. Yang, H. Li, L. You, Z. Wang, and S. Zhang, Fiber-optic two-way quantum time transfer with frequency-entangled pulses, Physical Review A 100, 023849 (2019).
22.Y. Liu, Z.-W. Yu, W. Zhang, J.-Y. Guan, J.-P. Chen, C. Zhang, X.-L. Hu, H. Li, C. Jiang, J. Lin, T.-Y. Chen, L. You, Z. Wang, X.-B. Wang, Q. Zhang, and J.-W. Pan, "Experimental Twin-Field Quantum Key Distribution through Sending or Not Sending," Physical Review Letters 123, 100505 (2019).
23.Y.-F. Jiang, K. Wei, L. Huang, K. Xu, Q.-C. Sun, Y.-Z. Zhang, W. Zhang, H. Li, L. You, Z. Wang, H.-K. Lo, F. Xu, Q. Zhang, and J.-W. Pan, "Remote Blind State Preparation with Weak Coherent Pulses in the Field," Physical Review Letters 123, 100503 (2019).
24.B. Li, F. Hou, R. Quan, R. Dong, L. You, H. Li, X. Xiang, T. Liu, and S. Zhang, "Nonlocality test of energy-time entanglement via nonlocal dispersion cancellation with nonlocal detection," Physical Review A 100, 053803 (2019).
25.Qi-Chao Sun, Yang-Fan Jiang, Bing Bai, Weijun Zhang, Hao Li, Xiao Jiang, Jun Zhang, Lixing You, Xianfeng Chen, Zhen Wang, Qiang Zhang, Jingyun Fan and Jian-Wei Pan. Experimental demonstration of non-bilocality with truly independent sources and strict locality constraints. Nature Photonics 13, 687 (2019).
26.Yang Liu, Zong-Wen Yu, Weijun Zhang, Jian-Yu Guan, Jiu-Peng Chen, Chi Zhang, Xiao-Long Hu, Hao Li, Cong Jiang, Jin Lin, Teng-Yun Chen, Lixing You, Zhen Wang, Xiang-Bin Wang, Qiang Zhang, and Jian-Wei Pan, Experimental Twin-Field Quantum Key Distribution through Sending or Not Sending, Phys. Rev. Lett. 123, 100505 (2019).
27.Yang-Fan Jiang, Kejin Wei, Liang Huang, Ke Xu, Qi-Chao Sun, Yu-Zhe Zhang, Weijun Zhang, Hao Li, Lixing You, Zhen Wang, Hoi-Kwong Lo, Feihu Xu, Qiang Zhang, and Jian-Wei Pan, Remote Blind State Preparation with Weak Coherent Pulses in the Field, Phys. Rev. Lett. 123, 100503 (2019).
28.Hui Liu, Wenyuan Wang, Kejin Wei, Xiao-Tian Fang, Li Li, Nai-Le Liu, Hao Liang, Si-Jie Zhang, Weijun Zhang, Hao Li, Lixing You, Zhen Wang, Hoi-Kwong Lo, Teng-Yun Chen, Feihu Xu, and Jian-Wei Pan, Experimental Demonstration of High-Rate Measurement-Device-Independent Quantum Key Distribution over Asymmetric Channels, Phys. Rev. Lett. 122, 160501 (2019)。
29.Kejin Wei, Nora Tischler, Si-Ran Zhao, Yu-Huai Li, Juan Miguel Arrazola, Yang Liu, Weijun Zhang, Hao Li, Lixing You, Zhen Wang, Yu-Ao Chen, Barry C. Sanders, Qiang Zhang, Geoff J. Pryde, Feihu Xu, and Jian-Wei Pan, Experimental Quantum Switching for Exponentially Superior Quantum Communication Complexity, Phys. Rev. Lett. 122, 120504 (2019)。
30.Yang Liu, Xiao Yuan, Cheng Wu, Weijun Zhang, Jian-Yu Guan, Jiaqiang Zhong, Hao Li, Ming-Han Li, Carlos Abellán, Morgan W. Mitchell, Sheng-Cai Shi, Jingyun Fan, Lixing You, Zhen Wang, Xiongfeng Ma, Qiang Zhang, and Jian-Wei Pan, Experimental measurement-dependent local Bell test with human free will, Phys. Rev. A 99, 022115 (2019)。
2018
1.W. Zhang, X. Yang, H. Li, L. You, C. Lv, L. Zhang, C. Zhang, X. Liu, Z. Wang, and X. Xie, Fiber-coupled superconducting nanowire single-photon detectors integrated with a bandpass filter on the fiber end-face, Superconductor Science and Technology 31, 035012 (2018).
2.L. You, J. Quan, Y. Wang, Y. Ma, X. Yang, Y. Liu, H. Li, J. Li, J. Wang, J. Liang, Z. Wang, and X. Xie, Superconducting nanowire single photon detection system for space applications, Optics Express 26, 2965 (2018).
3.L. Zhang, L. You, X. Yang, J. Wu, C. Lv, Q. Guo, W. Zhang, H. Li, W. Peng, Z. Wang, and X. Xie, Hotspot relaxation time of NbN superconducting nanowire single-photon detectors on various substrates, Scientific Reports 8, 1486 (2018).
4.L. You, Miniaturizing superconducting nanowire single-photon detection systems, Superconductor Science and Technology 31, 040503 (2018).
5.X. Yao, W. Zhang, H. Li, L. You, Z. Wang, and Y. Huang, Long-distance thermal temporal ghost imaging over optical fibers, Optics Letters 43, 759-762 (2018).
6.O. Masataka, K. Yong-Hamb, and Y. Lixing, Introduction to the special issue ‘Focus on Low and High- T c Superconducting Sensors and Detectors’, Superconductor Science and Technology 31, 040201 (2018).
7.X. Yang, L. You, L. Zhang, C. Lv, H. Li, X. Liu, H. Zhou, and Z. Wang, Comparison of Superconducting Nanowire Single-Photon Detectors Made of NbTiN and NbN Thin Films, IEEE Transactions on Applied Superconductivity 28, 1-6 (2018).
8.H. Zhou, Y. He, C. Lv, L. You, Z. Li, G. Wu, W. Zhang, L. Zhang, X. Liu,. X. Yang, and Z. Wang, Photon-counting chirped amplitude modulation lidar system using superconducting nanowire single-photon detector at 1550-nm wavelength, Chinese Physics B 27, 018501 (2018).
9.L. Zhang, L. You, L. Ying, W. Peng, and Z. Wang, Characterization of surface oxidation layers on ultrathin NbTiN films, Physica C: Superconductivity and its Applications 545, 1-4 (2018).
10.J. Huang, W. Zhang, L. You, C. Zhang, C. Lv, Y. Wang, X. Liu, H. Li, Z. Wang, High speed superconducting nanowire single-photon detector with nine interleaved nanowires, Superconductor Science and Technology 31, 074001 (2018).
11.X. Li, F. Zhu, L. Qin, J. Zhang, M. Ren, J. An, W. Zhang, L. You, Z. Wang, and X. Xu, Two-photon interferences on a silica-on-silicon chip with telecom-band photon pairs generated in a fiber, Optics Express 26, 29471-29481 (2018).
12.C. Chen, X. Ding, J. Qin, Y. He, Y. Luo, M. Chen, C. Liu, X. Wang, W. Zhang, H. Li, L. You, Z. Wang, D. Wang, B. Sanders, C. Lu, and J. Pan, Observation of Topologically Protected Edge States in a Photonic Two-Dimensional Quantum Walk, Physical Review Letters 121, 100502 (2018).
13.H. Wang, W. Li, X. Jiang, Y. He, Y. Li, X. Ding, M. Chen, J. Qin, C. Peng, C. Schneider, M. Kamp, W. Zhang, H. Li, L. You, Z. Wang, J. Dowling, S. Höfling, C. Lu, and J. Pan, Toward Scalable Boson Sampling with Photon Loss, Physical Review Letters 120, 230502 (2018).
14.C. Lv, W. Zhang, L. You, P. Hu, H. Wang, H. Li, C. Zhang, J. Huang, Y. Wang, X. Yang, Z. Wang, and X. Xie, Improving maximum count rate of superconducting nanowire single-photon detector with small active area using series attenuator, AIP Advances 8, 105018 (2018).
15.H. Li, X. Yang, L. You, H. Wang, P. Hu, W. Zhang, Z. Wang, and X. Xie, Improving detection efficiency of superconducting nanowire single-photon detector using multilayer antireflection coating, AIP Advances 8, 115022 (2018).
16.H. Zhong, Y. Li, W. Li, L. Peng, Z. Su, Y. Hu, Y. He, X. Ding, W. Zhang, H. Li, L. Zhang, Z. Wang, L. You, X. Wang, X. Jiang, L. Li, Y. Chen, N. Liu, C. Lu, and J. Pan, 12-Photon Entanglement and Scalable Scattershot Boson Sampling with Optimal Entangled-Photon Pairs from Parametric Down-Conversion, Physical Review Letters 121, 250505 (2018).
17.尤立星. 超导纳米线单光子探测现状与展望. 红外与激光工程 47(12): 1202001. (2018) (EI, 综述,封面文章)。
18.Y. Liu, Q. Zhao, M. Li, J. Guan, Y. Zhang, Bing Bai, W. Zhang, W. Liu, C. Wu, X. Yuan, H. Li, W. Munro, Z. Wang, L. You, J. Zhang, X. Ma, J. Fan, Q. Zhang, and J. Pan, Device-independent quantum random-number generation, Nature 562, 548-551 (2018).
19.M. Li, C. Wu, Y. Zhang, W. Liu, B. Bai, Y. Liu, W. Zhang, Q. Zhao, H. Li, Z. Wang, L. You, W. Munro, J. Yin, J. Zhang, C. Peng, X. Ma, Q. Zhang, J. Fan, and J. Pan, Test of Local Realism into the Past without Detection and Locality Loopholes, Physical Review Letters 121, 080404 (2018).
20.The BIG Bell Test Collaboration, "Challenging local realism with human choices," Nature 557, 212-216 (2018).
21.J. Guan, J. Arrazola, R. Amiri, W. Zhang, H. Li, Li. You, Z. Wang, Q. Zhang, and J. Pan, Experimental preparation and verification of quantum money, Physical Review A 97, 032338 (2018).
22.Y. Liu, X. Yuan, M. Li, W. Zhang, Q. Zhao, J. Zhong, Y. Cao, Y. Li, L. Chen, H. Li, T. Peng, Y. Chen, C. Peng, S. Shi, Z. Wang, L. You, X. Ma, J. Fan, Q. Zhang, and J. Pan, High-Speed Device-Independent Quantum Random Number Generation without a Detection Loophole, Physical Review Letters 120, 010503 (2018).
23.L. Zhang, L. You, L. Ying, W. Peng and Z. Wang. Characterization of surface oxidation layers on ultrathin NbTiN films. Physica C: Superconductivity and its Applications 545: 1-4. (2018)
24.Y. Liu, X. Yuan, M.-H. Li, W. Zhang, Q. Zhao, J. Zhong, Y. Cao, Y.-H. Li, L.-K. Chen, H. Li, T. Peng, Y.-A. Chen, C.-Z. Peng, S.-C. Shi, Z. Wang, L. You, X. Ma, J. Fan, Q. Zhang and J.-W. Pan. High-Speed Device-Independent Quantum Random Number Generation without a Detection Loophole. Physical Review Letters 120(1): 010503. (2018)
25.Hui Zhou, Chao-Lin Lv, Li-Xing You, Zhao-Hui Li, Guang Wu, Wei-Jun Zhang, Lu Zhang, Xiao-Yu Liu, Xiao-yan Yang, Zhen Wang. Photon-counting chirped amplitude modulation lidar system using superconducting nanowire single-photon detectorat 1550-nm wavelength. Chin. Phys. B 27(1): 18501-018501. (2018)
2017
1.C. L. Lv, H. Zhou, H. Li, L. X. You, X. Y. Liu, Y. Wang, W. J. Zhang, S. J. Chen, Z. Wang and X. M. Xie. Large active area superconducting single-nanowire photon detector with a 100 μm diameter. Superconductor Science and Technology 30(11) : 115018. (2017) 。
2.W. Zhang, L. You, H. Li, J. Huang, C. Lv, L. Zhang, X. Liu, J. Wu, Z. Wang and X. Xie. NbN superconducting nanowire single photon detector with efficiency over 90% at 1550 nm wavelength operational at compact cryocooler temperature. Science China Physics, Mechanics & Astronomy 60(12) : 120314. (2017) 。
3.L. X. You, J. J. Wu, Y. X. Xu, X. T. Hou, W. Fang, H. Li, W. J. Zhang, L. Zhang, X. Y. Liu, L. M. Tong, Z. Wang and X. M. Xie. Microfiber-coupled superconducting nanowire single-photon detector for near-infrared wavelengths. Optics Express 25(25) : p.31221-31229. (2017) 。
4.L. X. You, H. Li, W. J. Zhang, X. Y. Yang, L. Zhang, S. J. Chen, H. Zhou, Z. Wang and X. M. Xie. Superconducting nanowire single-photon detector on dielectric optical films for visible and near infrared wavelengths. Superconductor Science & Technology 30(8) : 084008. (2017) 。
5.Y. X. Xu, J. J. Wu, W. Fang, L. X. You and L. M. Tong. Microfiber coupled superconducting nanowire single-photon detectors. Optics Communications 405 : p.48-52. (2017) 。
6.Q. C. Sun, Y. F. Jiang, Y. L. Mao, L. X. You, W. Zhang, W. J. Zhang, X. Jiang, T. Y. Chen, H. Li, Y. D. Huang, X. F. Chen, Z. Wang, J. Y. Fan, Q. Zhang and J. W. Pan. Entanglement swapping over 100 km optical fiber with independent entangled photon-pair sources. Optica 4(10) : p.1214-1218. (2017) 。
7.L. You, J. Wu, Y. Xu, X. Hou, W. Fang, H. Li, W. Zhang, L. Zhang, X. Liu, L. Tong, Z. Wang and X. Xie. Microfiber-coupled superconducting nanowire single-photon detector for near-infrared wavelengths. Optics Express 25(25): 31221-31229. (2017)
8.L. You, H. Li, W. Zhang, X. Yang, L. Zhang, S. Chen, H. Zhou, Z. Wang and X. Xie. Superconducting nanowire single-photon detector on dielectric optical films for visible and near infrared wavelengths. Superconductor Science and Technology 30(8): 084008. (2017)
9.H.-L. Yin, W.-L. Wang, Y.-L. Tang, Q. Zhao, H. Liu, X.-X. Sun, W.-J. Zhang, H. Li, I. V. Puthoor, L.-X. You, E. Andersson, Z. Wang, Y. Liu, X. Jiang, X. Ma, Q. Zhang, M. Curty, T.-Y. Chen and J.-W. Pan. Experimental measurement-device-independent quantum digital signatures over a metropolitan network. Physical Review A 95(4): 042338. (2017)
10.H.-L. Yin, Y. Fu, H. Liu, Q.-J. Tang, J. Wang, L.-X. You, W.-J. Zhang, S.-J. Chen, Z. Wang, Q. Zhang, T.-Y. Chen, Z.-B. Chen and J.-W. Pan. Experimental quantum digital signature over 102 km. Physical Review A 95(3): 032334. (2017)
11.Y. Xu, J. Wu, W. Fang, L. You and L. Tong. Microfiber coupled superconducting nanowire single-photon detectors. Optics Communications 405: 48-52. (2017)
12.J. Wu, L. You, S. Chen, H. Li, Y. He, C. Lv, Z. Wang and X. Xie. Improving the timing jitter of a superconducting nanowire single-photon detection system. Applied Optics 56(8): 2195-2200. (2017)
13.Y. Wang, H. Li, L. You, C. Lv, J. Huang, W. Zhang, L. Zhang, X. Liu, Z. Wang and X. Xie. Broadband Near-Infrared Superconducting Nanowire Single-Photon Detector With Efficiency Over 50%. IEEE Transactions on Applied Superconductivity 27(4): 2200904. (2017)
14.Q.-C. Sun, Y.-L. Mao, Y.-F. Jiang, Q. Zhao, S.-J. Chen, W. Zhang, W.-J. Zhang, X. Jiang, T.-Y. Chen, L.-X. You, L. Li, Y.-D. Huang, X.-F. Chen, Z. Wang, X. Ma, Q. Zhang and J.-W. Pan. Entanglement swapping with independent sources over an optical-fiber network. Physical Review A 95(3): 032306. (2017)
15.Q.-C. Sun, Y.-F. Jiang, Y.-L. Mao, L.-X. You, W. Zhang, W.-J. Zhang, X. Jiang, T.-Y. Chen, H. Li, Y.-D. Huang, X.-F. Chen, Z. Wang, J. Fan, Q. Zhang and J.-W. Pan. Entanglement swapping over 100 km optical fiber with independent entangled photon-pair sources. Optica 4(10): 1214-1218. (2017)
16.J. Huang, W. J. Zhang, L. X. You, X. Y. Liu, Q. Guo, Y. Wang, L. Zhang, X. Y. Yang, H. Li, Z. Wang and X. M. Xie. Spiral superconducting nanowire single-photon detector with efficiency over 50% at 1550 nm wavelength. Superconductor Science and Technology 30(7): 074004. (2017)
17.Y. He, X. Ding, Z. E. Su, H. L. Huang, J. Qin, C. Wang, S. Unsleber, C. Chen, H. Wang, Y. M. He, X. L. Wang, W. J. Zhang, S. J. Chen, C. Schneider, M. Kamp, L. X. You, Z. Wang, S. Höfling, C.-Y. Lu and J.-W. Pan. Time-Bin-Encoded Boson Sampling with a Single-Photon Device. Physical Review Letters 118(19): 190501. (2017)
18.Q. Guo, L. You, H. Li, W. Zhang, L. Zhang, X. Liu, X. Yang, S. Chen, Z. Wang and X. Xie. Impact of Trapezoidal Cross Section on Polarization Sensitivity of SNSPD With Ultranarrow Nanowire. IEEE Transactions on Applied Superconductivity 27(4): 2201304. (2017)
19.S. Dong, X. Yao, W. Zhang, S. Chen, W. Zhang, L. You, Z. Wang and Y. Huang. True Single-Photon Stimulated Four-Wave Mixing. ACS Photonics 4(4): 746-753. (2017)
2016
1.H. L. Yin, T. Y. Chen, Z. W. Yu, H. Liu, L. X. You, Y. H. Zhou, S. J. Chen, Y. Mao, M. Q. Huang, W. J. Zhang, H. Chen, M. J. Li, D. Nolan, F. Zhou, X. Jiang, Z. Wang, Q. Zhang, X. B. Wang, and J. W. Pan, "Measurement-Device-Independent Quantum Key Distribution Over a 404 km Optical Fiber," Physical review letters 117, 190501 (2016). 【中科大合作】
2.W. J. Zhang, H. Li, L. X. You, J. Huang, Y. H. He, L. Zhang, X. Y. Liu, S. J. Chen, Z. Wang, and X. M. Xie, "Superconducting Nanowire Single-Photon Detector With a System Detection Efficiency Over 80% at 940-nm Wavelength," IEEE Photonics Journal 8, 1-8 (2016).
3.Y.-L. Tang, H.-L. Yin, Q. Zhao, H. Liu, X.-X. Sun, M.-Q. Huang, W.-J. Zhang, S.-J. Chen, L. Zhang, L.-X. You, Z. Wang, Y. Liu, C.-Y. Lu, X. Jiang, X. Ma, Q. Zhang, T.-Y. Chen, and J.-W. Pan, "Measurement-Device-Independent Quantum Key Distribution over Untrustful Metropolitan Network," Physical Review X 6 (2016). 【中科大合作】
4.Q. C. Sun, Y. L. Mao, S. J. Chen, W. Zhang, Y. F. Jiang, Y. B. Zhang, W. J. Zhang, S. Miki, S. Yamashita, H. Terai, X. Jiang, T. Y. Chen, L. X. You, X. F. Chen, Z. Wang, J. Y. Fan, Q. Zhang, and J.-W. Pan, "Quantum teleportation with independent sources and prior entanglement distribution over a network," Nature photonics 10, 671 (2016). 【中科大合作】
5.H. Li, S. J. Chen, L. X. You, W. D. Meng, Z. B. Wu, Z. P. Zhang, K. Tang, L. Zhang, W. J. Zhang, X. Y. Yang, X. Y. Liu, Z. Wang, and X. M. Xie, "Superconducting nanowire single photon detector at 532 nm and demonstration in satellite laser ranging," Optics express 24, 3535-3542 (2016). 【天文台合作】
6.J. Y. Guan, F. Xu, H. L. Yin, Y. Li, W. J. Zhang, S. J. Chen, X. Y. Yang, L. Li, L. X. You, T. Y. Chen, Z. Wang, Q. Zhang, and J. W. Pan, "Observation of Quantum Fingerprinting Beating the Classical Limit," Physical review letters 116, 240502 (2016). 【中科大合作】
15.J. J. Wu, L. X. You, L. Zhang, W. J. Zhang, H. Li, X. Y. Liu, H. Zhou, Z. Wang, X. M. Xie, Y. X. Xu, W. Fang, and L. M. Tong, "NbN superconducting nanowire single-photon detector fabricated on MgF2substrate," Superconductor Science and Technology 29, 065011 (2016).
18.F. Zhu, W. Zhang, S. Chen, L. You, Z. Wang and Y. Huang. Experimental device-independent tests of classical and quantum entropy. Physical Review A 94(6): 062340. (2016)
19.W. J. Zhang, H. Li, L. X. You, J. Huang, Y. H. He, L. Zhang, X. Y. Liu, S. J. Chen, Z. Wang and X. M. Xie. Superconducting Nanowire Single-Photon Detector With a System Detection Efficiency Over 80% at 940-nm Wavelength. IEEE Photonics Journal 8(2): 4500908. (2016)
20.H.-L. Yin, T.-Y. Chen, Z.-W. Yu, H. Liu, L.-X. You, Y.-H. Zhou, S.-J. Chen, Y. Mao, M.-Q. Huang, W.-J. Zhang, H. Chen, M. J. Li, D. Nolan, F. Zhou, X. Jiang, Z. Wang, Q. Zhang, X.-B. Wang and J.-W. Pan. Measurement-Device-Independent Quantum Key Distribution Over a 404 km Optical Fiber. Physical Review Letters 117(19): 190501. (2016)
21.J. J. Wu, L. X. You, L. Zhang, W. J. Zhang, H. Li, X. Y. Liu, H. Zhou, Z. Wang, X. M. Xie, Y. X. Xu, W. Fang and L. M. Tong. NbN superconducting nanowire single-photon detector fabricated on MgF 2 substrate. Superconductor Science and Technology 29(6): 065011. (2016)
22.C. Wang, J. Zhang, L. Zhang, L. You and X. Su. Co-sputtering NbTiN thin films on PSG/Si substrates. Superconductor Science and Technology 29(2): 025005. (2016)
23.Y.-L. Tang, H.-L. Yin, Q. Zhao, H. Liu, X.-X. Sun, M.-Q. Huang, W.-J. Zhang, S.-J. Chen, L. Zhang, L.-X. You, Z. Wang, Y. Liu, C.-Y. Lu, X. Jiang, X. Ma, Q. Zhang, T.-Y. Chen and J.-W. Pan. Measurement-Device-Independent Quantum Key Distribution over Untrustful Metropolitan Network. Physical Review X 6(1): 011024. (2016)
24.Q.-C. Sun, Y.-L. Mao, S.-J. Chen, W. Zhang, Y.-F. Jiang, Y.-B. Zhang, W.-J. Zhang, S. Miki, T. Yamashita, H. Terai, X. Jiang, T.-Y. Chen, L.-X. You, X.-F. Chen, Z. Wang, J.-Y. Fan, Q. Zhang and J.-W. Pan. Quantum teleportation with independent sources and prior entanglement distribution over a network. Nat Photon 10(10): 671-675. (2016)
25.Y. Liu, Z. Cao, C. Wu, D. Fukuda, L. You, J. Zhong, T. Numata, S. Chen, W. Zhang, S.-C. Shi, C.-Y. Lu, Z. Wang, X. Ma, J. Fan, Q. Zhang and J.-W. Pan. Experimental quantum data locking. Physical Review A 94(2): 020301. (2016)
26.H. Li, S. Chen, L. You, W. Meng, Z. Wu, Z. Zhang, K. Tang, L. Zhang, W. Zhang, X. Yang, X. Liu, Z. Wang and X. Xie. Superconducting nanowire single photon detector at 532 nm and demonstration in satellite laser ranging. Optics Express 24(4): 3535-3542. (2016)
27.Y. He, W. Zhang, H. Zhou, L. You, C. Lv, L. Zhang, X. Liu, J. Wu, S. Chen, M. Ren, Z. Wang and X. Xie. Bias-free true random number generation using superconducting nanowire single-photon detectors. Superconductor Science and Technology 29(8): 085005. (2016)
28.J.-Y. Guan, F. Xu, H.-L. Yin, Y. Li, W.-J. Zhang, S.-J. Chen, X.-Y. Yang, L. Li, L.-X. You, T.-Y. Chen, Z. Wang, Q. Zhang and J.-W. Pan. Observation of Quantum Fingerprinting Beating the Classical Limit. Physical Review Letters 116(24): 240502. (2016)
29.黄. 燕, 王. 林, 胡. 伟达, 潘. 建珍, 郝. 加明, 徐. 刚毅, 陈. 建新, 尤. 立星, 王. 刚, 陈. 效双 and 陆. 卫. 高效信号辐射源和探测器件. 中国科学: 信息科学 46(8): 1035. (2016)
2015
1.H. Li, L. Zhang, L. You, X. Yang, W. Zhang, X. Liu, S. Chen, Z. Wang, and X. Xie, "Large-sensitive-area superconducting nanowire single-photon detector at 850 nm with high detection efficiency," Optics express 23, 17301-17308 (2015).
2.S. Dong, L. Yu, W. Zhang, J. Wu, L. You, and Y. Huang, "Generation of hyper-entanglement in polarization/energy-time and discrete-frequency/energy-time in optical fibers," Scientific reports 5, 9195 (2015). 【清华大学合作】
3.S. J. Chen, L. X. You, W. J. Zhang, X. Y. Yang, H. Li, L. Zhang, Z. Wang, and X. M. Xie, "Dark counts of superconducting nanowire single-photon detector under illumination," Optics express 23, 10786 (2015).
4.W. J. Zhang, H. Li, L. X. You, Y. H. He, L. Zhang, X. Y. Liu, X. Y. Yang, J. J. Wu, Q. Guo, S. J. Chen, Z. Wang, and X. M. Xie, "Superconducting nanowire single-photon detectors at a wavelength of 940 nm," AIP Advances 5, 067129 (2015).
5.H. Zhou, Y. H. He, L. X. You, S. J. Chen, W. J. Zhang, J. J. Wu, Z. Wang, and X. M. Xie, "Few-photon imaging at 1550 nm using a low-timing-jitter superconducting nanowire single-photon detector," Optics express 23, 14603-14611 (2015).
6.Q. Guo, H. Li, L. You, W. Zhang, L. Zhang, Z. Wang, X. Xie, and M. Qi, "Single photon detector with high polarization sensitivity," Scientific reports 5, 9616 (2015).
7.H. Zhou, Y. He, L. You, S. Chen, W. Zhang, J. Wu, Z. Wang and X. Xie. Few-photon imaging at 1550 nm using a low-timing-jitter superconducting nanowire single-photon detector. Optics Express 23(11): 14603-14611. (2015)
8.W. J. Zhang, H. Li, L. X. You, Y. H. He, L. Zhang, X. Y. Liu, X. Y. Yang, J. J. Wu, Q. Guo, S. J. Chen, Z. Wang and X. M. Xie. Superconducting nanowire single-photon detectors at a wavelength of 940 nm. AIP Advances 5(6): 067129. (2015)
9.L. Zhang, W. Peng, L. X. You and Z. Wang. Superconducting properties and chemical composition of NbTiN thin films with different thickness. Applied Physics Letters 107(12): 122603. (2015)
10.X. Yang, H. Li, L. You, W. Zhang, L. Zhang, Z. Wang and X. Xie. Temperature dependence of an optical narrow-bandpass filter at 1.5 um. Applied Optics 54(1): 96-100. (2015)
11.Y.-L. Tang, H.-L. Yin, S.-J. Chen, Y. Liu, W.-J. Zhang, X. Jiang, L. Zhang, J. Wang, L.-X. You, J.-Y. Guan, D.-X. Yang, Z. Wang, H. Liang, Z. Zhang, N. Zhou, X. Ma, T.-Y. Chen, Q. Zhang and J.-W. Pan. Field Test of Measurement-Device-Independent Quantum Key Distribution. IEEE Journal of Selected Topics in Quantum Electronics 21(3): 1-7. (2015)
12.H. Li, L. Zhang, L. You, X. Yang, W. Zhang, X. Liu, S. Chen, Z. Wang and X. Xie. Large-sensitive-area superconducting nanowire single-photon detector at 850 nm with high detection efficiency. Optics Express 23(13): 17301-17308. (2015)
13.Y.-H. He, L. Chao-Lin, W.-J. Zhang, L. Zhang, J.-J. Wu, S.-J. Chen, L.-X. You and Z. Wang. Statistical analysis of the temporal single-photon response of superconducting nanowire single photon detection. Chinese Physics B 24(6): 060303. (2015)
14.Q. Guo, H. Li, L. You, W. Zhang, L. Zhang, Z. Wang, X. Xie and M. Qi. Single photon detector with high polarization sensitivity. Scientific Reports 5: 9616. (2015)
15.S. Dong, L. Yu, W. Zhang, J. Wu, W. Zhang, L. You and Y. Huang. Generation of hyper-entanglement in polarization/energy-time and discrete-frequency/energy-time in optical fibers. Scientific Reports 5: 9195. (2015)
16.S. Chen, L. You, W. Zhang, X. Yang, H. Li, L. Zhang, Z. Wang and X. Xie. Dark counts of superconducting nanowire single-photon detector under illumination. Optics Express 23(8): 10786-10793. (2015)
2014
1.Q. Zhou, S. Dong, W. Zhang, L. You, Y. He, W. Zhang, Y. Huang and J. Peng. Frequency-entanglement preparation based on the coherent manipulation of frequency nondegenerate energy-time entangled state. Journal of the Optical Society of America B 31(8): 1801-1806. (2014)
2.L. Zhang, L. You, D. Liu, W. Zhang, L. Zhang, X. Liu, J. Wu, Y. He, C. Lv, Z. Wang and X. Xie. Characterization of superconducting nanowire single-photon detector with artificial constrictions. AIP Advances 4(6): 067114. (2014)
3.L. You. Recent progress on superconducting nanowire single photon detector. Scientia Sinica Informationis 44(3): 370. (2014)
4.X. Y. Yang, H. Li, W. J. Zhang, L. X. You, L. Zhang, X. Y. Liu, Z. Wang, W. Peng, X. M. Xie and M. H. Jiang. Superconducting nanowire single photon detector with on-chip bandpass filter. Optics Express 22(13): 16267-16272. (2014)
5.Y.-L. Tang, H.-L. Yin, S.-J. Chen, Y. Liu, W.-J. Zhang, X. Jiang, L. Zhang, J. Wang, L.-X. You, J.-Y. Guan, D.-X. Yang, Z. Wang, H. Liang, Z. Zhang, N. Zhou, X. Ma, T.-Y. Chen, Q. Zhang and J.-W. Pan. Measurement-Device-Independent Quantum Key Distribution over 200 km. Physical Review Letters 113(19): 190501. (2014)
6.D. Liu, L. You, Y. He, C. Lv, S. Chen, L. Zhang, Z. Wang and X. Xie. Photon-number resolving and distribution verification using a multichannel superconducting nanowire single-photon detection system. Journal of the Optical Society of America B 31(4): 816-820. (2014)
7.D. Liu, S. Miki, T. Yamashita, L. You, Z. Wang and H. Terai. Multimode fiber-coupled superconducting nanowire single-photon detector with 70% system efficiency at visible wavelength. Optics Express 22(18): 21167-21174. (2014)
8.H. Li, W. Zhang, L. You, L. Zhang, X. Yang, X. Liu, S. Chen, C. Lv, W. Peng, Z. Wang and X. Xie. Nonideal Optical Cavity Structure of Superconducting Nanowire Single-Photon Detector. IEEE Journal of Selected Topics in Quantum Electronics 20(6): 198-202. (2014)
9.D. Jiang, T. Hu, L. You, Q. Li, A. Li, H. Wang, G. Mu, Z. Chen, H. Zhang, G. Yu, J. Zhu, Q. Sun, C. Lin, H. Xiao, X. Xie and M. Jiang. High-Tc superconductivity in ultrathin Bi2Sr2CaCu2O8+x down to half-unit-cell thickness by protection with graphene. Nat Commun 5: 5708. (2014)
10.S. Dong, Q. Zhou, W. Zhang, Y. He, W. Zhang, L. You, Y. Huang and J. Peng. Energy-time entanglement generation in optical fibers under CW pumping. Optics Express 22(1): 359-368. (2014)
11.X. Yang, H. Li, W. Zhang, L. You, L. Zhang, X. Liu, Z. Wang, W. Peng, X. Xie, and M. Jiang, "Superconducting nanowire single photon detector with on-chip bandpass filter," Optics express 22, 16267-16272 (2014).
12.Y. L. Tang, H. L. Yin, S. J. Chen, Y. Liu, W. J. Zhang, X. Jiang, L. Zhang, J. Wang, L. X. You, J. Y. Guan, D. X. Yang, Z. Wang, H. Liang, Z. Zhang, N. Zhou, X. Ma, T. Y. Chen, Q. Zhang, and J. W. Pan, "Measurement-device-independent quantum key distribution over 200 km," Physical review letters 113, 190501 (2014). 【中科大合作】
2013
1.张文星, 陈思井, 刘登宽 and 尤立星. 超导纳米线单光子探测系统的时间抖动. 低温与超导(04): 1-4+12. (2013)
2.刘登宽, 陈思井, 尤立星, 何宇昊 and 张玲. 超导纳米线单光子探测器的光耦合结构. 光学 精密工程 21(6): 1496-1502. (2013)
3.J. J. Zhang, X. D. Su, L. Zhang, L. Zheng, X. F. Wang and L. X. You. Improvement of the superconducting properties of NbN thin film on single-crystal silicon substrate by using a TiN buffer layer. Superconductor Science & Technology 26(4): 045010. (2013)
4.L. You, X. Yang, Y. He, W. Zhang, D. Liu, W. Zhang, L. Zhang, L. Zhang, X. Liu, S. Chen, Z. Wang and X. Xie. Jitter analysis of a superconducting nanowire single photon detector. AIP Advances 3(7): 072135. (2013)
5.D. K. Liu, L. X. You, S. J. Chen, X. Y. Yang, Z. Wang, Y. L. Wang, X. M. Xie and M. H. Jiang. Electrical Characteristics of Superconducting Nanowire Single Photon Detector. Applied Superconductivity, IEEE Transactions on 23(3): 2200804-2200804. (2013)
6.S. J. Chen, D. K. Liu, W. X. Zhang, L. X. You, Y. H. He, W. J. Zhang, X. Y. Yang, G. Wu, M. Ren, H. P. Zeng, Z. Wang, X. M. Xie and M. H. Jiang. Time-of-flight laser ranging and imaging at 1550 nm using low-jitter superconducting nanowire single-photon detection system. Applied Optics 52(14): 3241-3245. (2013)
7.S. Chen, D. Liu, L. You, Y. Wang, L. Qiu, X. Xie, M. Jiang, T. Chen, Y. Liu, S. Miki and Z. Wang. Superconducting nanowire single-photon detection system and demonstration in quantum key distribution. Chinese Science Bulletin 58(10): 1145-1149. (2013)
2012
1.巫君杰, 尤立星, 刘登宽 and 陈思井. 超导纳米线单光子探测器动态电感研究. 低温与超导(11): 18-21. (2012)
2.D. K. Liu, S. J. Chen, L. X. You, Y. L. Wang, S. Miki, Z. Wang, X. M. Xie and M. H. Jiang. Nonlatching Superconducting Nanowire Single-Photon Detection with Quasi-Constant-Voltage Bias. Applied Physics Express 5(12): 125202. (2012)
