项国勇

个人信息Personal Information

教授

博士生导师

教师拼音名称:xiangguoyong

电子邮箱:

学历:博士研究生毕业

联系方式:gyxiang@ustc.edu.cn

学位:博士

毕业院校:中国科学技术大学

学科:物理学

科学研究

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84. B. Tian, W.-Z. Yan, Z. Hou*, G.-Y. Xiang†, C.-F. Li, and G.-C. Guo, Minimum-Consumption Discrimination of Quantum States via Globally Optimal Adaptive Measurements, Phys. Rev. Lett. 132, 110801 (2024)

83. W.-Z. Yan*, Y. Li*, Z. Hou†, H. Zhu‡, G.-Y. Xiang§, C.-F. Li, and G.-C. Guo, Experimental Demonstration of Inequivalent Mutually Unbiased Bases, Phys. Rev. Lett. 132, 080202 (2024)

82. L. Xu, L.-X. Wang, G.-J. Chen, L. Chen, Y.-H. Yang, X.-B. Xu, A. Liu, C.-F. Li, G.-C. Guo, C.-L. Zou*, and G.-Y. Xiang*, Transporting Cold Atoms towards a GaN-on-Sapphire Chip via an Optical Conveyor Belt, Chin. Phys. Lett. 40, 093701 (2023)

81. W.-Z. Yan, Z. Hou*, J.-. Tang, G.-Y. Xiang†, C.-F. Li, G.-C. Guo,  and M.-O. Renou, Universal device for two-qubit entangled measurements via photonic quantum walks, Phys. Rev. Applied 20, 044032 (2023)

80. Y. Yuan, Y. Xiao, Z. Hou, S.-M. Fei, G. Gour, G.-Y. Xiang†, C.-F. Li, and G.-C. Guo, Strong majorization uncertainty relations and experimental verifications, npj Quantum Information 9, 65 (2023)

79. K.-D. Wu, C. Yang*, R.-D. He, M. Gu#, G.-Y. Xiang†, C.-F. L, G.-C. Guo, and T. J. Elliott‡, Implementing quantum dimensionality reduction for non-Markovian stochastic simulation, Nature Communications 4, 2624 (2023)

78. H. Ma, C.-J. Huang, C. Chen, D. Dong, Y. Wang, R.-B. Wu, and G.-Y. Xiang*, On compression rate of quantum autoencoders: Control design, numerical and experimental realization, Automatica 147, 110659 (2023)

77. Z. Hou†, J.-F. Tang†, C.-J. Huang, Y.-F. Huang, G.-Y. Xiang*, C.-F. Li, and G.-C. Guo, Entangled-State Time Multiplexing for Multiphoton Entanglement Generation, Phys. Rev. Applied 19, L011002 (2023)

76. Y.-Y. Zhao†, C. Zhang†, S. Cheng*, X. Li*, Y. Guo, B.-H. Liu*, H.-Y. Ku, S.-L. Chen, Q. Wen, Y.-F. Huang, G.-Y. Xiang*, C.-F. Li*, and G.-C. Guo, Device-independent verification of Einstein–Podolsky–Rosen steering, Optica 10, 66 (2023)

75. A. Liu, L. Xu, X.-B. Xu, G.-J. Chen, P. Zhang, G.-Y. Xiang, G.-C. Guo, Q. Wang*, and C.-L. Zou†, Proposal for low-power atom trapping on a GaN-on-sapphire chip, Phys. Rev. A 106, 033104 (2022)

74. Q. Yu, Y. Wang, D. Dong, I. R. Petersen, and G.-Y. Xiang, Generation of Accessible Sets in the Dynamical Modeling of Quantum Network Systems, IEEE Transactions on Control of Network Systems 9, 682(2022)

73. Y.-Y. Zhao#, F. Rozpędek#, Z. Hou, K.-D. Wu, G.-Y. Xiang*, C.-F. Li, G.-C. Guo, Experimental study of quantum uncertainty from lack of information, npj Quantum Information 8, 64 (2022)

72. M. Miller#, K.-D. Wu#, M. Scalici, J. Kołody´nski, G.-Y. Xiang*, C.-F. Li, G.-C. Guo, and A. Streltsov†, Optimally preserving quantum correlations and coherence with eternally non-Markovian dynamics, New J. Phys. 24, 053022(2022)

71. R.-D. He, K.-D. Wu, G.-Y. Xiang*C.-F. Li, and G.-C. Guo, Experimental quantification of dynamical coherence via entangling two qubits, Optics Express 30, 10346(2022)

70. L. Chen , C.-J. Huang, X.-B. Xu, Y.-C. Zhang, D.-Q. Ma, Z.-T. Lu, Z.-B. Wang, G.-J. Chen, J.-Z. Zhang, H. X. Tang, C.-H. Dong, W. Liu, G.-Y. Xiang, G.-C. Guo, and C.-L. Zou*, Planar-Integrated Magneto-Optical Trap, Phys. Rev. Applied 17, 034031 (2022)

69. R.-Q. Zhang*Z. Hou*, J.-F. Tang, J. Shang†, H. Zhu‡, G-Y. Xiang§C.-F. Li, and G.-C. GuoEfficient Experimental Verification of Quantum Gates with Local OperationsPhys. Rev. Lett. 128, 020502 (2022)

68. Z. Hou, Q. Yin, C. Zhang, H.-S. Zhong, G.-Y. Xiang†, C.-F. Li, G.-C. Guo, G. J. Pryde, and A. Laing‡, Taking tomographic measurements for photonic qubits 88 ns before they are created, Chin. Phys. B 30, 040304 (2021)

67. R.-Q. Zhang‡, Z. Hou,‡, Z. Li‡, H. Zhu*, G.-Y. Xiang†, C.-F. Li, G.-C. Guo, Experimental Masking of Real Quantum States, Phys. Rev. Applied 16, 024052 (2021)

66. C.-J. Huang, G.-Y. Xiang*, Y. Guo, K.-D. Wu, B.-H. Liu†, C.-F. Li, G.-C. Guo,and A. Tavakoli‡, Nonlocality, Steering, and Quantum State Tomography in a Single Experiment, Phys. Rev. Lett. 127, 020401 (2021)

65. K.-D. Wu, A. Streltsov, B. Regula, G.-Y. Xiang*, C.-F. Li, and G.-C. Guo, Experimental Progress on Quantum Coherence: Detection, Quantification, and Manipulation, Adv. Quantum Technol., 2100040 (2021)

64. Z. Hou*, Y. Jin*, H. Chen, J.-F. Tang, C.-J. Huang, H. Yuan†, G.-Y. Xiang†, C.-F. Li, G.-C. Guo, “Super-Heisenberg” and Heisenberg Scalings Achieved Simultaneously in the Estimation of a Rotating Field, Phys. Rev. Lett. 126, 070503 (2021)

63. K. D. Wu, T. V. Kondra, S. Rana, C. M. Scandolo, G.-Y. Xiang*, C.-F. Li, G.-C. Guo, and A. Streltsov†, Resource theory of imaginarity: Quantification and state conversion, Phys. Rev. A 103.032401(2021)

62. K. D. Wu, T. V. Kondra, S. Rana, C. M. Scandolo, G.-Y. Xiang*, C.-F. Li, G.-C. Guo, and A. Streltsov†, Operational Resource Theory of Imaginarity, Phys. Rev. Lett. 126, 090401 (2021)

61. Qihao Guo#, Yuan-Yuan Zhao#, Markus Grassl, Xinfang Nie, Guo-Yong Xiang*, Tao Xin, Zhang-Qi Yin*, Bei Zeng*, Testing a quantum error-correcting code on various platforms, Science Bulletin 66, 29–35(2021)

60. Z. Hou*, J.-F. Tang*, H. Chen, H. Yuan†, G.-Y. Xiang†,C.-F. Li, G.-C. Guo, Zero–trade-off multiparameter quantum estimation via simultaneously saturating multiple Heisenberg uncertainty relations, Science Advances, 7, eabd2986 (2021)

59. C. R. Zhang, M. J. Hu, G. Y. Xiang*, Y. S. Zhang, C. F. Li, and G. C. Guo, Direct Strong Measurement of a High-Dimensional Quantum State, Chin. Phys. Lett. 37, 080301 (2020);

58. K. D. Wu, E. Bäumer, J. F. Tang, K. V. Hovhannisyan, M. Perarnau-Llobet*,  G. Y. Xiang*, C. F. Li, and G. C. Guo, Minimizing Backaction through Entangled Measurements, Phys. Rev. Lett. 125, 210401 (2020);

57. Z. Hou, J. F. Tang, C. Ferrie*, G. Y. Xiang*, C. F. Li, and G. C. Guo, Experimental realization of self-guided quantum process tomography, Phys. Rev. A 101, 022317 (2020);

56. C. J. Huang, H. Ma, Q. Yin, J. F. Tang, D. Dong*, C. Chen, G. Y. Xiang*, C. F. Li, and G. C. Guo, Realization of a quantum autoencoder for lossless compression of quantum data, Phys. Rev. A 102, 032412 (2020);

55. Y. Y. Zhao, H. Y. Ku, S. L. Chen*, H. B. Chen, F. Nori, G. Y. Xiang*, C. F. Li, G. C. Guo, and Y. N. Chen, Experimental demonstration of measurement-device independent measure of quantum steering,  npj Quantum Information 6, 77 (2020);

54. Z. Hou#, Z. Zhang, G. Y. Xiang*, C. F. Li, G. C. Guo, H. Chen#, L. Liu#, and H. Yuan*, Minimal Tradeoff and Ultimate Precision Limit of Multiparameter Quantum Magnetometry under the Parallel Scheme, Phys. Rev. Lett. 125, 020501 (2020);

53. K. D. Wu, Z. Hou, G. Y. Xiang*, C. F. Li, G. C. Guo, D. Dong, and F. Nori, Detecting non-Markovianity via quantified coherence: theory and experiments, npj Quantum Information 6, 55 (2020);

52. Y. Yuan, Z. Hou, J. F. Tang, A. Streltsov*, G. Y. Xiang*, C. F. Li, and G. C. Guo, Direct estimation of quantum coherence by collective measurements, npj Quantum Information 6, 46 (2020);

51. C. R. Zhang, M. J. Hu, Z. Hou, J. F. Tang, J. Zhu, G. Y. Xiang*, C. F. Li, G. C. Guo, Y. S. Zhang*, Direct measurement of the two-dimensional spatial quantum wave function via strong measurements, Phys. Rev. A 101, 012119 (2020);

50. K. D. Wu, T. Theurer, G. Y. Xiang*, C. F. Li, G. C. Guo, M. B. Plenio and A. Streltsov*, Quantum coherence and state conversion: theory and experiment, npj Quantum Information 6, 22 (2020);

49. J. F. Tang, Z. Hou, J. W. Shang*, H. Zhu*, G. Y. Xiang*, C. F. Li, G. C. Guo, Experimental Optimal Orienteering via Parallel and Antiparallel Spins, Phys. Rev. Lett. 124, 060502 (2020);

48. J. F. Tang, Z. Hou, Q. F. Xu, G. Y. Xiang*, C. F. Li, G. C. Guo, Polarization-Independent Coherent Spatial-Temporal Interface with Low Loss, Phys. Rev. Applied 12, 064058 (2019);

47. Z. Hou, R. J. Wang, J. F. Tang, H. Yuan*, G. Y. Xiang*, C. F. Li, G. C. Guo, Control-Enhanced Sequential Scheme for General Quantum Parameter Estimation at the Heisenberg Limit, Phys. Rev. Lett. 123, 040501 (2019);

46. Y. Y. Zhao, G. Y. Xiang*, X. M. Hu, B. H. Liu*, C. F. Li, G. C. Guo, R. Schwonnek*, and R. Wolf*, Entanglement Detection by Violations of Noisy Uncertainty Relations: A Proof of Principle, Phys. Rev. Lett. 122, 220401 (2019);

45. K. D. Wu, Y. Yuan, G. Y. Xiang*, C. F. Li, G. C. Guo, M. Perarnau-Llobet*, Experimentally reducing the quantum measurementback action in work distributions by a collective measurementScience Advances 5, eaav4944 (2019);

44. Y. Wang, Q.Yin, D. Dong*, B. Qi, I. R. Petersen, Z. Hou, H. Yonezawa, G. Y. Xiang, Quantum gate identification: Error analysis, numerical results and optical experiment, Automatica 101, 269((2019));

43. S. Yu, C. J. Huang, J. S. Tang*, Z. A Jia, Y. T. Wang, Z. J. Ke, W.Liu, X. Liu,  Z. Q. Zhou, Z. D. Cheng, J. S. Xu, Y. C. Wu, Y. Y. Zhao, G. Y. Xiang*, C. F. Li*, G. C. Guo, G. Sentís*, and R. Muñoz-Tapia, Experimentally detecting a quantum change point via the Bayesian inference, Phys. Rev. A. 98, 040301(R) (2018);

42. K. D. Wu, Z. Hou, Y. Y. Zhao, G. Y. Xiang*, C. F. Li and G. C. Guo, J. Ma, Q. Y. He, J. Thompson, and M. Gu*, Experimental Cyclic Interconversion between Coherence and Quantum Correlations, Phys. Rev. Lett. 121, 050401 (2018);

41. Y. Yuan, Z. Hou, K. D. Wu, G. Y. Xiang*, C. F. Li and G. C. Guo,

Experimental retrodiction of trajectories of single photons in double interferometers, Phys. Rev. A. 97, 062115 (2018);

40. X. M. Hu, B. H. Liu, Y. Guo, G. Y. Xiang, Y. F. Huang, C. F. Li, G. C. Guo, M. Kleinmann, T. Vertes and A. Cabello, Observation of stronger-than-binary correlations with entangled photonic qutrits, Phys. Rev. Lett. 120, 180402 (2018) ;

39. Z. Hou, J. F. Tang, J. Shang, H. Zhu*, J. Li, Y. Yuan, K. D. Wu, G. Y. Xiang*, C. F. Li and G. C. Guo, Deterministic realization of collective  measurements via photonic quantum walks, Nature Communications 9 , 1414(2018);

38. Q. Yin, G. Y. Xiang*, C. F. Li and G. C. Guo, Compressed Sensing Quantum State Tomography Assisted by Adaptive Design, Chin. Phys. Lett. 35, 070302(2018);

37. Y. Yuan, Z. Hou, Y. Y. Zhao, H. S. Zhong, G. Y. Xiang*, C. F. Li and G. C. Guo, Experimental demonstration of wave-particle duality relation based on coherence measure, Optics Express 26, 4470 (2018)

36. B. Qi, Z. Hou, Y. Wang, D. Dong, H. S. Zhong, L, Li, G. Y. Xiang*, H. W. Wiseman, C. F. Li and G. C. Guo, Adaptive quantum state tomography via linear regression estimation: Theory and two-qubit experiment, npj Quantum Information 3, 19 (2017)

35. Y. Y. Zhao, P. Kurzynski*, G. Y. Xiang*, C. F. Li and G. C. Guo, Heisenberg’s error-disturbance relations: A joint measurement-based experimental test, Phys. Rev. A. 95, 040101 (2017)

34. K. D. Wu, Z. Hou, H. S. Zhong, Y. Yuan, G. Y. Xiang*, C. F. Li and G. C. Guo, Experimentally obtaining maximal coherence via assisted distillation process, Optica 4, 454 (2017)

33. Y. Y. Zhao, Z. Hou, G. Y. Xiang*, Y. J. Han, C. F. Li and G. C. Guo, Experimental demonstration of efficient quantum state tomography of matrix product states, Optics Express 25, 9010 (2017)

32. Y. Y. Zhao, M. Grassl, B. Zeng, G.Y. Xiang*C. Zhang C. F. Li and G. C. Guo, Experimental detection of entanglement polytopes via local filters, npj Quantum Information 3, 11 (2017)

31. Q. Yin, G. Y. Xiang*, C. F. Li and G. C. Guo, Improving Accuracy of Estimating Two-Qubit States with Hedged Maximum Likelihood, Chinese Physics Letters 34, 030301 (2017)

30. Q. Yin, L. Li, X. Xiao, G. Y. Xiang*, C. F. Li and G. C. Guo, Experimental demonstration of real-time adaptive one-qubit quantum-state tomography, Phys. Rev. A 95, 012129 (2017)

29. Z. B. Hou, H. S. Zhong, Y. Tian, D. Y. Dong, B. Qi, L. Li, Y. L. Wang, F. Nori, G. Y. Xiang*, C. F. Li and G. C. Guo, Full reconstruction of a 14-qubit state within four hours, New Journal of Physics 18, 083036 (2016)

28. Z. B. Hou, H. J. Zhu, G. Y. Xiang*, C. F. Li and G. C. Guo, Error-compensation measurements on polarization qubits, JOSAB 33, 1256 (2016)

27. Z. B. Hou, H. J. Zhu*, G. Y. Xiang*, C. F. Li and G. C. Guo, Achieving quantum precision limit in adaptive qubit state tomography, npj Qantum Information 2, 16001 (2016)

26. Y. Y. Zhao, Y. C. Wu*, G. Y. Xiang*, C. F. Li and G. C. Guo, Experimental violation of the local realism for four-qubit Dicke state, Optics Express 23, 30491(2015)

25. J. Qiu, J. S. Pan, G. Y. Xiang, Y. S. Zhang, S. S. Han and Y. Z. Gui, Even- and odd-order dispersion cancellation effects in a two-photon interferometer, JOSAB 32, 907 (2015)

24. Z. B. Hou, G. Y. Xiang* , D. Y. Dong, C. F. Li and G. C. Guo, Realization of mutually unbiased bases for a qubit with only one wave plate: theory and experiment, Optics Express 23, 10018(2015)

23. Y. Y. Zhao, N. K. Yu, P. Kurzynski, G. Y. Xiang*, C. F. Li and G. C. Guo, Experimental realization of gerneralized qubit measurement based on quantum walks, Phys. Rev. A 91, 042101 (2015)

22. J. Qiu, Y. S. Zhang, G. Y. Xiang, S. S. Han and Y. Z. Gui, Unified view of the second-order and the fourth-order interferences in a single interferometer,  Optics Communications, 336, 9(2015)

21. D. S. Ding, W. Zhang, Z. Y. Zhou, S. Shi, G. Y. Xiang, X. S. Wang, Y. K. Jiang, B. S. Shi and G. C. Guo, Quantum Storage of Orbital Angular Momentum Entanglement in an Atomic Ensemble, Phys. Rev. Lett. 114, 050502(2015)

20. B. L. Higgins, M. S. Palsson, G. Y. Xiang, H. M. Wiseman and G. J. Pryde, Using weak values to experimentally determine "negative probabilities" in a two-photon state with Bell correlations, Phys. Rev. A 91, 012113 (2015)

19. J. Qiu, G. Y. Xiang, Y. S. Zhang, S. S. Han and Y. Z. Gui, Even- and odd-order dispersion cancellation effects in four-photon quantum interferometry, Chinese Optics Letters 12, 112701 (2014)

18. D. S. Ding, W. Zhang, Z. Y. Zhou, S. Shi, J. S. Pan, G. Y. Xiang, X. S. Wang, Y. K. Jiang, B. S. Shi and G. C. Guo, Toward high-dimensional-state quantum memory in a cold atomic ensemble, Phys. Rev. A 90, 042301 (2014)

17. G. Y. Xiang, Z. Hou, C. F. Li and G. C Guo, Entanglement distribution in optical fibers assisted by nonlocal memory effects, EPL 107, 54006 (2014)

16. B. Qi, Z. B. Hou, L. Li, D. Y. Dong, G. Y. Xiang* and G. C. Guo, Quantum state tomography via linear regression estimation, Scientific Reports 3, 3496 (2013)

15. G. Y. Xiang and G. C. Guo, Quantum metrology, Chinese Physics B 22, 110601 (2013)

14. G. Y. Xiang, H. F. Hofmann and G. J. Pryde, Optimal multi-photon phase sensing with a single interference fringe, Scientific Reports 3, 2684 (2013)

13. S. Kocsis, G. Y. Xiang, T. C. Ralph and G. J. Pryde, Heralded noiseless amplification of a photon polarization qubit,  Nature Physics 9, 23(2013)

12. J. S. Tang, Y. L. Li, X. Y. Xu, G. Y. Xiang, C. F. Li and G. C. Guo, Realization of quantum Wheeler’s delayed-choice experiment, Nature Photonics 6 600 (2012);

11. G. Y. Xiang, B. L. Higgins, D. W. Berry, H. M. Wiseman, and G. J. Pryde, Entanglement-enhanced measurement of a completely unknown optical phase, Nature Photonics 5 43 (2011);

10. D. W. Berry, G. Y. Xiang, B. L. Higgins, H. M. Wiseman, and G. J. Pryde, Entanglement-enhanced measurement of a completely unknown optical phase, 2010 Conference on Lasers and Electro-Optics (CLEO) AND Quantum Electronics asn Laser Science Conference (QELS); 

9. G. Y. Xiang, T. C. Ralph, A. P. Lund, N. Walk, and G. J. Pryde, Noiseless linear amplification and distillation of entanglement, Nature Photonics 4 316 (2010);

8. X. L. Niu, Y. F. Huang, G. Y. Xiang, G. C. Guo, and Z. Y. Ou, Beamlike high-brightness source of polarization-entangled photon pairs, Optics Letters 33, 968(2008);

7. G. Y. Xiang, Y. F. Huang, F. W. Sun, P. Zhang, Z. Y. Ou, and G. C. Guo, Demonstration of Temporal Distinguishability in a Four-Photon State and a Six-Photon State, Phys. Rev. Lett. 97, 023604 (2006);

6. S. F. Huelga, M. B. Plenio, G. Y. Xiang, J. Li, G. C. Guo, Remote implementation of quantum operations, Jour. of Opt. B 7, s384-s391 (2005) ;

5. G. Y. Xiang, J. Li, G. C. Guo, Teleporting a rotation on remote photons, Phys. Rev. A 71, 044304 (2005) ;

4. G. Y. Xiang, J. Li, B. Yu, G. C. Guo, Remote preparation of mixed state via noisy entanglement, Phys. Rev. A 72, 012315 (2005);

3. G. Y. Xiang, J. Li, G. C. Guo, Remote state preparation and operation for photons, Quantum Optics and Application In Computing and Communication II 5631, 112 (2005);

2. G. Y. Xiang, Y. S. Zhang, J. Li, G. C. Guo, Scheme for preparation of the W-state by using linear optic elements, Jour. of Opt. B 5, 208 (2003);

1. B. Yu, Z. W. Zhou, Y. Zhang, G. Y. Xiang, G. C. Guo, Robust high-fidelity teleportation of an atomic state through the detection of cavity decay, Phys. Rev. A 70, 014302 (2004);