(These authors contributed equally: name1, name2;  corresponding author: name* )

2026

103. Tianyu Qian, Jipeng Xu, Ran Huang, Keyu Xia, Zhiqiang Xiong, Hongchang Zhao, Chao Wang, Yuchen Feng, Jintao Zheng, Jiajia Li, Hui Luo*, Shiqiao Qin*, Franco Nori, Hui Jing*, Zhiguo Wang*, 'Operating a non-Hermitian atomic magnetometer with programmable digital electronics', Nat. Commun. (2026) (article in press), PDFOperating a non-Hermitian atomic magnetometer with programmable digital electronics.pdf, Link: Operating a non-Hermitian atomic magnetometer with programmable digital electronics | Nature Communications

2025

102. Yiqian Yang, Zhixiang Li, Zhengzhong Huang, Andrew Forbes*, Liangcai Cao*, Keyu Xia*, and Yanqing Lu*, 'Quantum holography enhanced by object-uncorrelated photons', Phys. Rev. Applied 24, 064077 (2025), PDFQuantum holography enhanced by object-uncorrelated photons.pdf, Link: Quantum holography enhanced by object-uncorrelated photons | Phys. Rev. Applied

101. Wei Li, Tao Xie, Yu-Hang Luo, Kang Zheng, Meiyu Peng, Hui Yang, Chunling Ding, Chen-Zhi Yuan, Omar S. Magaña-Loaiza, Keyu Xia, Ryosuke Shimizu, Hui Jing*, Chenglong You*, and Rui-Bo Jin*, 'Sample-Half-Inserted Quantum Interferometer', Phys. Rev. Lett. 135, 240201 (2025), PDFSample-Half-Inserted Quantum Interferometer.pdf, Link: Sample-Half-Inserted Quantum Interferometer | Phys. Rev. Lett.

100. Neng Zeng, Tao Liu, Keyu Xia, Yu-Ran Zhang*, and Franco Nori, 'Non-Hermitian sensing from the perspective of postselected measurement', Phys. Rev. Res. 7, 043219 (2025), PDF

Non-Hermitian sensing from the perspective of postselected measurements.pdf, Link: Non-Hermitian sensing from the perspective of postselected measurements

99. 唐江山,唐磊,陈明远,邹榆红,周文鹏,夏可宇*,“非对称量子光学与量子信息技术:从手性到非互易(特邀),《光学学报》,Vol.45, No.20, 2027011 (2025), PDF非对称量子光学与量子信息技术:从手性到非互易(特邀).pdf, Link:非对称量子光学与量子信息技术:从手性到非互易(特邀) | 光学学报 -- 中国光学期刊网

98. Hui-Ming WangYuan ChenMing-Yuan Chen, Ying-Yu Fang, Ka-Di Zhu*, Cheng-Wei Qiu*, Yan-Qing Lu*, Keyu Xia* and Xian-Min Jin*, 'Locking Orbital Angular Momentum with Linear Momentum of Light', Phys. Rev. Lett. 135, 143802 (2025), PDF Locking Orbital Angular Momentum with Linear Momentum of Light.pdf, Link:Locking Orbital Angular Momentum with Linear Momentum of Light

97. Yuhong Zou, Fan Lv, Haodong Wu, Jiangshan Tang, Han Zhang, Hui Jing and Keyu Xia*, 'Broadband optical nonreciprocity based on gain saturation in an Er-doped fiber', Phys. Rev. A. 112, 033531 (2025), Link:Broadband optical nonreciprocity based on gain saturation in an Er-doped fiber

96. Yuwei Jing, Jian Tang, Yunlan Zuo, Baijun Li, and Keyu Xia*, 'Bi-tone-driven optomechanical photon blockade', Opt. Express. 33, 37017-37030 (2025), PDFBi-tone-driven optomechanical photon blockade.pdf, Link:Bi-tone-driven optomechanical photon blockade

95.  and , 'Photonic indistinguishability characterization and optimization for cavity-based single-photon source', Mach. Learn.: Sci. Technol. 6, 035026 (2025), PDFMLST Photonic indistinguishability characterization and optimization.pdf, Link: Photonic indistinguishability characterization and optimization for cavity-based single-photon source - IOPscience

94. Yan Wang, Yu-Hao Hu, Li-Ying Jiang, Jin-Lei Wu, Le-Man Kuang, Jian Tang, Ya-Feng Jiao, Ya-Chuan Liang, Hai-Yan Wang,  Ke-Yu Xia*,  Lei Shi*, and Hui Jing*, 'Microcavity-based parallel measurements of optical power and wavelength', Appl. Phys. Rev. 12, 021421 (2025), PDF021421_1_5.0268412.pdf, Link: Microcavity-based parallel measurements of optical power and wavelength | Applied Physics Reviews | AIP Publishing

93.  Changbiao Li, Jiaqi Yuan, Ruidong He, Jiawei Yu, Yanpeng Zhang, MinXiao, KeyuXia*, and Zhaoyang Zhang*, 'Nonreciprocal spontaneous parametric process', Light Sci. Appl. 14, 200 (2025), PDFLight Nonreciprocal spontaneous parametric process.pdf, Link: Nonreciprocal spontaneous parametric process | Light: Science & Applications

92. Yurou Chen, Jiangnan Qin, Binbin Zhang, Yufei Wang, Mingyuan Chen, Shuangli Fan*, Mingwei Liu*, Xiao-Tao Xie, Ren-Gang Wan, Hongjun Zhang, Keyu Xia*, and Hui Sun*Spin–orbit-coupling-induced broadband single-photon nonreciprocity on a solid-state platform

91. Weibao HeShun Wan, Yunlan Zuo, Siyang Hu, Ziheng Ren, Zhongyi Yu, Dongsheng Yang,

Xiang'ai Cheng, Keyu Xia, Yuze Hu*, Hui Jing*, and Tian Jiang*, 'Loss-Enabled Chirality Inversion in Terahertz Metasurfaces', Phys.Rev.Lett. 134, 106901 (2025), PDFPhysRevLett.134.106901.pdf, Link: Loss-Enabled Chirality Inversion in Terahertz Metasurfaces | Phys. Rev. Lett.  Physics synopsis: Physics.18.s24.pdf, Link: Physics - Flipping a Metasurface’s Chirality Cover page: PRLv134i10-front-cover-print.pdf Link: cv123020

90.  and 

89. Zhengyi Yue, Tao Li*, Zhenhua Li*, and Keyu Xia*, 'Deterministic single-photon-to-photon quantum transducer for distributed quantum networks', Phys. Rev. A 111, 022623 (2025), PDFPhysRevA.111.022623.pdf, Link: Deterministic single-phonon-to-photon quantum transducer for distributed quantum networks | Phys. Rev. A

88. Lei Tang*, Jiang-Shan Tang, and Keyu Xia*, 'Integrated all-optical nonreciprocity based on a  moving index grating', Opt. Express 33, 2205-2216 (2025), PDFoe-33-2-2205.pdf, Link: Integrated all-optical nonreciprocity based on a moving index grating

87. Ya-Ping RuanJiang-Shan TangZhipeng Li, Haodong Wu, Wenpeng Zhou, Longqi Xiao, Jianfeng Chen, Shi-Jun Ge, Wei Hu, Han Zhang, Cheng-Wei Qiu*, Wuming Liu*, Hui Jing*, Yan-Qing Lu*, and Keyu Xia*, 'Observation of loss-enhanced  magneto-optical effect', Nat. Photon. 19, 109–115 (2025), PDFObservation of loss-enhanced magneto-optical effect.pdf, Supplementary informationObservation of loss-enhanced magneto-optical effect SM.pdf, Link: Observation of loss-enhanced magneto-optical effect | Nature Photonics

This work is selected as Cover Article: Cover.pngnphoton.png

This work is cited in Review:Quantum and Classical Exceptional Points atthe Nanoscale Properties and Applications.pdf

This work is highlight by Light: Science & Applications:NaturePhotonics Scully review on Observation of loss-enhanced magneto-optical effect.pdf

This work is cited in Review:NSR Jiangfeng Du cite Exceptional MO effect.pdf

2024

86. Min She, Jiangshan Tang, and Keyu Xia*, 'A table-top high-sensitivity gyroscope based on slow light and cavity enhanced photon drag', APL Quantum 1, 046124 (2024), PDFAPLQuantum high-sensitivity gyroscope.pdf, Link: A table-top high-sensitivity gyroscope based on slow light and cavity enhanced photon drag | APL Quantum | AIP Publishing

85. Xueying Ma, Yuhui Ye, Yang Xiao, Shengnan Feng, Chunfeng Zhang, Keyu Xia, Fengrui Hu,  Min Xiao*, and Xiaoyong Wang*, 'Prolonged Phase Segregation of Mixed-Halide Perovskite  Nanocrystals in the Dark', ACS Appl. Mater. Interfaces 16, 65142−65148 (2024), PDFASC AMI 2024-prolonged-phase-segregation-of-mixed-halide-perovskite-nanocrystals-in-the-dark.pdf, Supporting InformationASC AMI 2024-prolonged-phase-segregation-of-mixed-halide-perovskite-nanocrystals-in-the-dark sm.pdf, Link: Prolonged Phase Segregation of Mixed-Halide Perovskite Nanocrystals in the Dark | ACS Applied Materials & Interfaces

84. Rui-Kai Pan, Lei Tang*, and Keyu Xia*, 'Broadband dynamic nonreciprocity based on a nonlinear Mach-Zehnder interferometer', Phys. Rev. A 110, 043505 (2024), PDFPhysRevA.110.043505.pdf, Link: Phys. Rev. A 110, 043505 (2024) - Broadband dynamic nonreciprocity based on a nonlinear Mach-Zehnder interferometer (aps.org)

83. Yu-Fang Yang, Ming-Yuan Chen, Feng-Pei Li, Ya-Ping Ruan, Zhi-Xiang Li, Min Xiao, Han Zhang*, and Ke-Yu Xia*, 'Scalable cyclic transformation of orbital angular momentum modes based on a nonreciprocal Mach–Zehnder interferometer', Photon. Res. 12, 2249-2256 (2024), PDFprj-12-10-2249.pdf, Link: Scalable cyclic transformation of orbital angular momentum modes based on a nonreciprocal Mach–Zehnder interferometer (optica.org)

82.  and Nonreciprocal Photon Blockade Based on Zeeman Splittings Induced by a Fictitious Magnetic Field', Chin. Phys. Lett. 41, 074202 (2024), PDFSu_2024_Chinese_Phys._Lett._41_074202.pdf, Link: Nonreciprocal Photon Blockade Based on Zeeman Splittings Induced by a Fictitious Magnetic Field - IOPscience

81. Jipeng Xu, Yuanhao Mao, Zhipeng Li, Yunlan Zuo,  Jianfa Zhang, Biao Yang, Wei Xu, Ning Liu, Zhi Jiao Deng,  Wei Chen, Keyu Xia, Cheng-Wei Qiu*, Zhihong Zhu*,  Hui Jing* and Ken Liu*, 'Single-cavity loss-enabled nanometrology', Nat. Nanotechnol. 19pages1472–1477 (2024) PDFNatNano Single-cavity loss-enabled nanometrology.pdf, Link: Single-cavity loss-enabled nanometrology | Nature Nanotechnology

80. Wenpeng Zhou, Ya‑Ping Ruan, Haodong Wu, Han Zhang, Jiang‑Shan Tang, Zhenda Xie,  Lei Tang, Yu Wang, Yue-E Ji, Kunpeng Jia, Cheng‑Wei Qiu*, Yan‑Qing Lu* and Keyu Xia*, 'Magnetic-free chiral eigenmode  spectroscopy for simultaneous sensitive  measurement of optical rotary dispersion  and circular dichroism', eLight 4, 12 (2024), PDFeLight Magnetic-free chiral eigenmode spectroscopy.pdf, Link:Magnetic-free chiral eigenmode spectroscopy for simultaneous sensitive measurement of optical rotary dispersion and circular dichroism | eLight | Full Text (springeropen.com)

This work is selected as Cover Article:Cover.jpg

This work is reported by EurekAlerthttps://www.eurekalert.org/news-releases/1051309

This work is reported by EIN Presswire: https://www.einpresswire.com/article/727107091/new-method-for-simultaneous-high-resolution-measurement-of-chiral-molecules

This work is highlight by Light: Science & Applications: A simple and rapid simultaneous measurement strategy for optical rotatory dispersion and circular dichroism | Light: Science & Applications (nature.com)

79. Mingyuan Chen, Jiang-Shan Tang, Miao Cai, Yanqing Lu*, Franco Nori*, and Keyu Xia*, 'High-dimensional two-photo quantum controlled phase-flip gate', Phys. Rev. Res. 6, 033004 (2024), PDFPhysRevResearch.6.033004.pdf, Link:Phys. Rev. Research 6, 033004 (2024) - High-dimensional two-photon quantum controlled phase-flip gate (aps.org)

78. Chaoying Meng, Miao Cai, Yufang Yang, Haodong Wu, Zhixiang Li, Yaping Ruan, Yong Zhang, Han Zhang*, Keyu Xia*, and Franco Nori, 'Generation of true quantum random numbers with on-demand probability distributions via single-photon quantum walks', Opt. Express 32, 20207-20217(2024), PDFoe-32-11-20207 Generation of quantum random number.pdf, Link:Generation of true quantum random numbers with on-demand probability distributions via single-photon quantum walks (optica.org)

77. Tian-Xiang Lu, Yan Wang, Keyu Xia, Xing Xiao, Le-Man Kuang, and Hui Jing*, 'Quantum squeezing induced nonreciprocal phonon laser',  Sci. China-Phys. Mech. Astron. 67, 260312 (2024), PDFScience China Quantum squeezing induced nonreciprocal phonon laser.pdf, Link: Quantum squeezing induced nonreciprocal phonon laser (sciengine.com)

This work is commented: Science china Pierre Meystre hightlights.pdf

76. Tiantian Zhang, Wenpeng Zhou, Zhixiang Li, Yutao Tang, Fan Xu, Haodong Wu, Han Zhang, Jiang-Shan Tang*, Ya-Ping Ruan*, and Keyu Xia*, 'Reversible Optical Isolators and Quasi-Circulators Using a Magneto-Optical Fabry–Pérot Cavity', Chinese Phys. Lett. 41, 044205 (2024), PDFReversible Optical Isolators and Quasi-Circulators Using a Magneto-Optical Fabry–Pérot Cavity.pdf, Link: Reversible Optical Isolators and Quasi-Circulators Using a Magneto-Optical Fabry–Pérot Cavity - IOPscience

75. Haodong Wu, Jiangshan Tang, Mingyuan Chen, Min Xiao, Yanqing Lu, Keyu Xia*, and Franco Nori*, 'Passive magnetic-free broadband optical isolator based on unidirectional self-induced transparency', Opt. Express 32, 11010-11021 (2024), PDFoe-32-7-11010.pdf, Link: Passive magnetic-free broadband optical isolator based on unidirectional self-induced transparency

74. Siyu Duan, Xin Su, Hongsong Qiu, Yushun Jiang, Jingbo Wu*, Kebin Fan, Caihong Zhang, Xiaoqing Jia, Guanghao Zhu, Lin Kang, Xinglong Wu, Huabing Wang, Keyu Xia*, Biaobing Jin*, Jian Chen, and Peiheng Wu , 'Linear and phase controllable terahertz frequency conversion via ultrafast breaking the bond of a meta-molecule', Nat. Commun. 15, 1119 (2024), PDFNature Communications Terahertz frequency conversion.pdf, Link: https://www.nature.com/articles/s41467-024-45416-7

73. Zhi-Xiang Li, Dong Zhu, Jiang-Shan Tang, Ming-Yuan Chen, Ya-Ping Ruan, Jian-Ji Liu, Han Zhang, Peng Chen, Ke-Yu Xia*, Li-Jian Zhang*, and Yan-Qing Lu*, 'Quantum ghost imaging of a vector field', Opt. Express 32, 5898-5907 (2024), PDFoe-32-4-5898 Quantum ghost imaging of a vector field.pdf, Link: Quantum ghost imaging of a vector field (optica.org)

2023

72. Zhenning Yang, Wanzhe Zhang, Changlong Zhu, Zhe Wang, Jianqing Guan, Yue Huo, Xiaohe Tang, Wei Shi, Keyu Xia, Yu-xi Liu, Lan Yang, and Jing Zhang*, 'Order transfer in a hybrid Raman-laser-optomechanical resonator', Opt. Express, 31,36836-36844 (2023), PDFoe-31-22-36836.pdf, Link: https://opg.optica.org/oe/fulltext.cfm?uri=oe-31-22-36836&id=540907

71. Miao Cai, Zhi-Xiang Li, Hao-Dong Wu, Ya-Ping Ruan, Lei-Tang, Jiang-Shan Tang, Ming-Yuan Chen, Han Zhang, Ke-Yu Xia*, Min Xiao and Yan-Qing Lu, 'Surpassing the standard quantum limit of optical imaging via deep learning', Chin. Opt. Lett. 21. 082701 (2023), PDFCOL.21.082701 (2023).pdf, Link: https://opg.optica.org/col/abstract.cfm?URI=col-21-8-082701

70. Hui Zhou, Tao Li* and Keyu Xia, 'Parallel and heralded multiqubit entanglement generation for quantum networks', Phys. Rev. A, 107, 022428 (2023), PDF: PhysRevA.107.022428.pdf, Link: https://doi.org/10.1103/PhysRevA.107.022428

2022

69. Jiang-Shan Tang, Lei Tang, Zhi-Xiang Li, Ya-Ping Ruan, Han Zhang, and Keyu Xia*, 'Shot-noise-suppressing quantum nonlinearity in the vacuum-field-induced photon-photon interaction', Phys. Rev. A, 106, 062439 (2022). PDF: PhysRevA.106.062439.pdf, Link: https://journals.aps.org/pra/abstract/10.1103/PhysRevA.106.062439

68. Xin Su, Jiang-Shan Tang*, and Keyu Xia*, 'Nonlinear dissipation-induced photon blockade', Phys. Rev. A, 106, 063707(2022). PDF: PhysRevA.106.063707.pdf , Link: https://doi.org/10.1103/PhysRevA.106.063707

67. Rui-Kai Pan, Lei Tang*, Keyu Xia* , and Franco Nori, 'Dynamic Nonreciprocity with a Kerr Nonlinear Resonator', Chin. Phys. Lett. 39,124201 (2022). PDF: Pan_2022_Chinese_Phys._Lett._39_124201.pdf Link: http://cpl.iphy.ac.cn/10.1088/0256-307X/39/12/124201

This work is reported by Physics World : https://physicsworld.com/a/nonlinear-resonator-breaks-dynamic-optical-nonreciprocity/

Related work: Nat. Photonics. 17.143-149 (2023); Link:https://doi.org/10.1038/s41566-022-01110-y

66. Zhixiang Li, Dong Zhu, Peicheng Lin, Chengpeng Huo, Hongkuan Xia, Mingze Liu, Yaping Ruan, Jiangshan Tang, Miao Cai, Haodong Wu, Chaoying Meng, Han Zhang, Peng Chen, Ting Xu, Keyu Xia*, Lijian Zhang*, and Yanqing Lu*, 'High-dimensional entanglement generation based on Pancharatnam-Berry phase metasurface', Photon. Res. 10(12), 2702 (2022).  

Selected as 'Editors' Pick'. PDF: prj-10-12-2702.pdf

Link: https://doi.org/10.1364/PRJ.470663https://www.researching.cn/articles/OJ4f00aac4e77f0d00

65. Miao Cai and Keyu Xia*, 'Optimizing continuous dynamical decoupling with machine learning', Phys. Rev. A.106, 042434 (2022). PDF: PhysRevA.106.042434.pdf Link: https://link.aps.org/doi/10.1103/PhysRevA.106.042434

64. Hong-Bo Huang, Jun-Jie Lin, Yi-Xuan Yao, Ke-Yu Xia, Zhang-Qi Yin, and Qing Ai*, 'Optical Nonreciprocity in Rotating Diamond with Nitrogen-Vacancy Color Centers',  ANNALEN DER PHYSIK, 2200157 (2022).  PDF: Annalen der Physik.pdf  Link:  https://doi.org/10.1002/andp.202200157

63. Mingyuan Chen, Jiangshan Tang, Lei Tang, Haodong Wu, and Keyu Xia*, 'Photon blockade and single-photon generation with multiple quantum emitters', Phys. Rev. Res. 4,033083 (2022). PDF: PhysRevResearch.4.033083.pdf  Link: https://link.aps.org/doi/10.1103/PhysRevResearch.4.033083

62. Haodong Wu, Yaping Ruan, Zhixiang Li, Ming-Xin Dong, Miao Cai, Jiangshan Tang, Lei Tang, Han Zhang*, Min Xiao*, and Keyu Xia*, 'Fundamental distinction of electromagnetically induced transparency and Autler-Townes splitting in breaking the time-reversal symmetry', Laser & Photonics Reviews, 16, 2100708 (2022). Laser & Photonics Reviews.16.2100708(2022) 

61. Lei TangJiang-Shan Tang, and Keyu Xia*, “Chiral quantum optics and optical nonreciprocity based on the susceptibility momentum locking”, Advanced Quantum Technologies, 5, 2200014 (2022). Adv Quantum Tech 2200014.pdf

60. Ya-Ping Ruan, Hao-Dong Wu, Shi-Jun Ge, Lei Tang, Zhi-Xiang Li, Han Zhang, Fei Xu, Wei Hu, Min Xiao, Yan-Qing Lu*, and Ke-Yu Xia*,  Ultralow-power all-optical switching via a chiral Mach-Zehnder interferometer, Opt. Express, 30, 19199-19211 (2022). oe-30-11-19199 Ultralow-power all-optical switching.pdf

59. Jiang-Shan Tang, Wei Nie, Lei Tang, Mingyuan Chen, Xin Su, Yanqing Lu, Franco Nori, and Keyu Xia*, Nonreciprocal Single-Photon Band Structure. Phys. Rev. Lett. 128, 203602 (2022).Phys.Rev.Lett 128,203602(2022).pdfSMaterial.pdf

58. Jiang-Shan Tang, Lei Tang, and Keyu Xia*,  'Three methods for single-photon transport in a chiral cavity quantum electrodynamics system', Chin. Opt. Lett., 20(6): 062701 (2022). col-20-6-062701.pdf

57. Lei Tang, Jiang-Shan Tang, Mingyuan Chen, Franco Nori,  Min Xiao, and Keyu Xia*, Quantum Squeezing Induced Optical Nonreciprocity, Phys. Rev. Lett., 128, 083604 (2022). Quantum Squeezing Induced Optical Nonreciprocity.pdfSupplMaterial.pdf

This work is highly cited: ESI 高被引论文检索.pdf

2021

56. Zhi-Xiang Li, Ya-Ping Ruan, Jie Tang, Yuan Liu, Jian-Ji Liu, Jiang-Shan Tang, Han Zhang, Ke-Yu Xia*, and Yan-Qing Lu*, 'Self-healing of a heralded single-photon Airy beam', Opt. Express, 29(24), 40187-40193 (2021). oe-29-24-40187.pdf

55. Miao Cai, Yanqing Lu, Min Xiao, and Keyu Xia*, 'Optimizing single-photon generation and storage with machine learning', Phys. Rev. A, 104, 053707 (2021). PhysRevA.104.053707.pdf

54. Zhi-Xiang Li, Ya-Ping Ruan, Peng Chen, Jie Tang, Wei Hu, Ke-Yu Xia, and Yan-Qing Lu*, 'Liquid crystal devices for vector vortex beams manipulation and quantum information applications [Invited]', Chinese Optics Letters 19(11) 112601 (2021). col-19-11-112601.pdf 

53. Lei Tang, Jiangshan Tang, Haodong Wu, Jing Zhang, Min Xiao, and Keyu Xia*, 'Broad-intensity-range optical nonreciprocity based on feedback-induced Kerr nonlinearity', Photon. Res. 9(7), 1218-1225 (2021).PhotonicsResearch feedback-induced non-reciprocity.pdf

52. Jiangshan Tang, Lei Tang, Haodong Wu, Yang Wu, Hui Sun*, Han Zhang*, Tao Li, Yanqing Lu, Min Xiao, and Keyu Xia*, 'Towards On-Demand Heralded Single-Photon Sources via Photon Blockade', Phys. Rev. Applied, 15, 064020 (2021). PhysRevApplied.15.064020 Quasi-on-demand HSPS.pdfPhysRevApplied.15.064020 Quasi-on-demand HSPS sm.pdf

51. Tao Li, Zikai Gao, and Keyu Xia*, 'Nonlinear-dissipation-induced nonreciprocal exceptional points', Opt. Express, 29(11), 17613-17627 (2021).oe-29-11-17613 Nonlinear-dissipation-induced nonreciprocal exceptional points.pdf

50. Ming-Xin Dong, Ke-Yu Xia*, Wei-Hang Zhang, Yi-Chen Yu, Ying-Hao Ye, En-Ze Li, Lei Zeng, Dong-Sheng Ding*, Bao-Sen Shi*, Guang-Can Guo, Franco Nori, 'All-optical reversible single-photon isolation at room temperature', Science Advances, 7(12), eabe8924 (2021). Science Advances single-photon isolation at room temperature.pdf

49. Yu-Guo Liu, Keyu Xia*, and Shi-Liang Zhu, ''Efficient microwave-to-optical single-photon conversion with a single flying circular Rydberg atom'', Opt. Express, 29(7), 9942-9959 (2021).oe-29-7-9942 mw-optical conversion.pdf 

2020

48. Chao Liang, Bei Liu, An-Ning Xu, Xin Wen, Cuicui Lu, Keyu Xia, Meng Khoon Tey, Yong-Chun Liu*, and Li You, 'Collision-Induced Broadband Optical Nonreciprocity', Phys. Rev. Lett., 125, 123901 (2020).PhysRevLett.125.123901 Collision-induced broadening nonreciprocity.pdfBroadNonreciprocity-supp-200727.pdf

47. Jiangshan Tang, Yang Wu, Zhenkai Wang, Hui Sun*, Lei Tang, Han Zhang, Tao Li, Yanqin Lu*, Min Xiao, and Keyu Xia*, 'Vacuum-induced surface-acoustic-wave phonon blockade', Phys. Rev. A 101, 053802 (2020). PhysRevA.101.053802.pdf

46. Yuan Chen, Ke-Yu Xia*, Wei-Guan Shen, Jun Gao, Zeng-Quan Yan, Zhi-Qiang Jiao, Jian-Peng Dou, Hao Tang, Yan-Qing Lu*, and Xian-Min Jin*,'Vector Vortex Beam Emitter Embedded in a Photonic Chip', Phys. Rev. Lett., 124, 153601 (2020). PhysRevLett.124.153601 Vector Vortex Beam Emitter Embedded in a Photonic Chip full.pdf

45. Tao Li*, Zhenkai Wang and Keyu Xia, 'Multipartite quantum entanglement creation for distant stationary systems', Opt. Express, 28(2), 1316-1329 (2020).oe-28-2-1316 Multpartite entanglement.pdf

2019

44. Lei Tang* and Keyu Xia, 'Optical Chirality and Single-Photon Isolation', Single Photon Manipulation, IntechOpen (2019). DOI: 10.5772/intechopen.90354.LeiTangBookChapter.pdf

43. Tao Li, Adam Miranowicz, Keyu Xia and Franco Nori, 'Resource-efficient analyzer of Bell and Greenberger-Horne-Zeilinger states of multiphoton systems', Phys. Rev. A 100, 052302 (2019).PhysRevA.100.052302.pdf

42. Nan Yang*, Adam Miranowicz, Yong-Chun Liu, Keyu Xia* and Franco Nori, 'Chaotic synchronization of two optical cavity modes in optomechanical systems', Scientific Rep. 9, 15874 (2019).SR chaos in optomechanics.pdf

41. Zhiguang Yan, Yu-Ran Zhang, Ming Gong, Yulin Wu, Yarui Zheng, Shaowei Li, Can Wang, Futian Liang, Jin Lin, Yu Xu, Cheng Guo, Lihua Sun, Cheng-Zhi Peng, Keyu Xia, Hui Deng, Hao Rong, J. Q. You, Franco Nori, Heng Fan*, Xiaobo Zhu* and Jian-Wei Pan, 'Strongly correlated quantum walks with a 12-qubit supeconducting processor', Science 364, 753 (2019).

science 2019 quantum walk of 12 superconducting qubits 2.pdf science 2019 quantum walk of 12 superconducting qubits 2 sm.pdf

This article is highly cited ESI 高被引论文检索.pdf

40. Lei Tang, Jiangshan Tang, Weidong Zhang, Guowei Lu, Han Zhang, Yong Zhang*, Keyu Xia*, and Min Xiao, 'On-chip chiral single-photon interface: Isolation and unidirectional emission', Phys,. Rev. A 99, 043833 (2019). PhysRevA.99.043833 on chip optical isolator.pdf

39. Yong-Chao Li, Jiang-Shan Tang, Jun-Liang Jiang, Jia-Zheng Pan, Xin Dai, Xing-Yu Wei, Ya-Peng Lu, Sheng Lu, Xue-Cou Tu, Hua-bing Wang, Ke-yu Xia*, Guo-Zhu Sun* and Pei-Heng Wu, 'A controllable superconducting electromechanical oscillator with a suspended membrane', AIP Advances 9, 015029 (2019). AIP mw-optical switching.pdf

2018

38. Keyu Xia*, Franco Nori and Min Xiao, 'Cavity-free optical isolators and circulators using a chiral cross-Kerr nonlinearity', Phys. Rev. Lett., 121, 203602 (2018).PhysRevLett.121.203602 chiral cross Kerr.pdfSupplem2018.10.5.pdf

37. Shicheng Zhang, Yiqi Hu, Gongwei Lin*, Yueping Niu*, Keyu Xia*, Jiangbin Gong and Shangqing Gong, 'Thermal-motion-induced non-reciprocal quantum optical system', Nat. Photonics, 12, 744-748 (2018). NaturePhotonics Thermal motion induced noreciprocical quantum optical systems.pdf NaturePhotonics Thermal motion induced noreciprocical quantum optical systems sm.pdf

36. Tao Li, Adam Miranowicz*, Xuedong Hu, Keyu Xia*, and Franco Nori*, 'Quantum memory and gates using a \Lambda-type quantum emitter coupled to a chiral waveguide', Phys. Rev. A 97, 062318 (2018).PhysRevA.97.062318 Quantum memory and gates using a Λ -type quantum emitter coupled to a chiral waveguide.pdf

35. Keyu. Xia*, Fedor Jelezko and Jason. Twamley, 'Quantum routing of single optical photons with a superconducting flux qubit', Phys. Rev. A 97, 052315(2018). PhysRevA.97.052315 EIT interface.pdf

34. E. Romero-Sanchez, W. P. Bowen, M. R. Vanner, K. Xia and J. Twamley, 'Quantum magnetomechanics: Towards the ultrastrong coupling regime', Phys. Rev. B 97, 024109(2018). PhysRevB.97.024109 Erick ultrastrong optomechanical coupling.pdf

33. Keyu Xia*, Quantum Non-Demolition Measurement of Photons, Photon Counting - Fundamentals and Applications, IntechOpen (2018). DOI: 10.5772/intechopen.72871.KeyuBookChapter-QND.pdf

2017 

32. Te Wen, Yingbo He, Xue-Lu Liu, Miao-Ling Lin, Yuqing Cheng, Jingyi Zhao, Qihuang Gong, Keyu Xia, Ping-Heng Tan and Guowei Lu, 'Spectral shape of one-photon luminescence from single gold nanorods', AIP Advances 7, 125106 (2017). AIP Advances 7 125106 spectral shape.pdf

31. Keyu Xia, 'Squeezing giant spin states via geometric phase control in cavity-assisted Raman transitions', Scientific Rep. 7:12836 (2017). s41598-017-12486-1 squeezing giant spin states via the geometric phase control.pdf

2016

30. Keyu Xia and Jason Twamley, 'Generating giant spin squeezinng states and GHZ entanglement using a hybrid phonon-spin ensemble in diamond', Phys. Rev. B, 94, 205118 (2016). PhysRevB.94.205118 Mechamical spin squeezing.pdf

29. Yuqing Cheng, Guowei Lu*, Yingbo He, Hongming Shen, Jingyi Zhao, Keyu Xia, and Qihuang Gong, 'Luminescence quantum yields of gold nanoparticles varying with excitation wavelengths', Nanoscale, 8 2188-2194 (2016). Nanoscale Quantum Yield 8p2188 2016.pdf

28. Keyu Xia*, Mattias Johnsson, Peter L. Knight and Jason Twamley, 'Cavity-free scheme for nondestructive detection of a single optical photon', Phys. Rev. Lett., 116(2), 023601(2016). PhysRevLett.116.023601 QND Kerr.pdf

2015

27. Keyu Xia*, Yingbo He, Hongming Shen, Yuqing Cheng, Qihuang Gong and Guowei Lu*, 'Plasmonic nano-resonator enhanced one-photon luminescence from single gold nanorods', Proc. of SPIE Micro+Nano Materials, Devices, and Systems, 9668, 96685B(2015). SPIE 2015 96685B.pdf

26. Keyu Xia*, Nan Zhao* and Jason Twamley*, 'Detection of a weak magnetic field via cavity enhanced Faraday rotation', Phys. Rev. A, 92(4), 043409 (2015). PhysRevA.92.043409 Faraday rotation.pdf

25. Keyu Xia* and Jianqi Zhang, 'Tuning optical spectrum between Fano and Lorentzian line shapes with phase control', Opt. Commun., 354(11), 128-131 (2015). OC Fano Lorentzian profile.pdf

24. Y. M. Hao, G. W. Lin, Keyu Xia, X. M. Lin, Y. P. Niu and S. Q. Gong, 'Quantum controlled-phase-flip gate between a flying optical photon and a Rydberg atomic ensemble', Scientific Rep., 5:10005(2015). srep 2015 Gongwei phase slip gate.pdf

23. Keyu Xia* and Jason Twamley*, 'Solid state optical interconnect between distant superconducting quantum chips', Phys. Rev. A 91(4), 042307 (2015). PhysRevA.91.042307 flux-NV interface.pdf

22. Yingbo He, Keyu Xia*, Guowei Lu*, Hongming Shen, Yuqing Cheng, Yong-chun Liu, Kebin Shi, Yun-Feng Xiao and Qihuang Gong, 'Surface enhanced anti-Stokes one-photon luminescence from single gold nanorods', Nanoscale, 7(2), 577-582(2015). Nanoscale superfluorescence 2015 7, 577.pdf

2014

21. Keyu Xia*, Guowei Lu, Gongwei Lin, Yuqing Cheng, Yueping Niu, Shangqing Gong and Jason Twamley, 'Reversible nanomagnetic single-photon isolation using unbalanced quantum coupling', Phys. Rev. A 90(4), 043802(2014). PhysRevA.90.043802 single photon diode.pdf

20. Keyu Xia, Michael R. Vanner and Jason Twamley, 'An opto-magneto-mechanical quantum interface between distant superconducting qubits', Scientific Rep. 4:5571 (2014). srep4p5571 Optomechanical interface.pdf

19. Keyu Xia 'Tunable slowing, storing and releasing of a weak microwave field', Phys. Rev. A 89(2), 023815 (2014). PhysRevA.89.023815 storage of microwave photon.pdf

2013

18. Keyu Xia*, M. Alamri and M. Suhail Zubairy, 'Ultrabroadband nonreciprocal transverse energy flow of light in linear passive photonic circuits', Opt. Express, 21(22), 25619-25631 (2013). OE ultrabroadband nonreciprocal transverse.pdf

17. Keyu Xia* and Jason Twamley, 'All-optical switching and router via the direct quantum control of coupling between cavity modes', Phys. Rev. X 3(3), 031013 (2013). PhysRevX.3.031013 all optical router.pdf

2012

16. Keyu Xia*, Gavin K. Brennen, Demosthenes Ellinas and Jason Twamley, 'Deterministic generation of an on-demand Fock state', Opt. Express, 20(24), 27198-27211 (2012). oe-20-24-27198 Fock state.pdf

2011

15.  Keyu Xia*, M. Macovei* and Joerg Evers*, 'Stationary entanglement in strongly coupled qubits', Phys. Rev. B 84(18), 184510 (2011).  PhysRevB.84.184510 ultrastrong coupling between qubits .pdf

14. Sandra Isabelle Schmid, Keyu Xia and Joerg Evers, 'Pathway interference in a loop array of three coupled microresonators', Phys. Rev. A 84(1), 013808 (2011). PhysRevA.84.013808 loop coupling.pdf

2010

13. Keyu Xia* and Joerg Evers*, 'Ground-state cooling of a nanomechanical resonator coupled to two interacting flux qubits', Phys. Rev. B 82(18), 184532(2010). PRB82p184532 collective cooling.pdf

2009

12. Keyu Xia and Joerg Evers, 'Ground state cooling of a nanomechanical resonator in the nonresolved regime via quantum interference', Phys. Rev. Lett., 103(22), 227203 (2009). PRL103p227203 EIT cooling.pdf

11. Keyu Xia*, M. Macovei, Joerg Evers and Christoph H. Keitel, 'Robust coherent preparation of entangled states of two coupled flux qubits via dynamic control of the transition frequencies', Phys. Rev. B 79(2), 024519(2009). PRB79p024519 robust coherent preparation of entangled states.pdf

2008

10. Yueping Niu*, Keyu Xia, Ni Cui, Shangqing Gong* and Ruxin Li, 'Spatiotemporal evolution and multipole self-focusing of ultrashort pulses in a resonant two-level medium', Phys. Rev. A 78(6), 063835(2008). PRA78p063835 spatiotemporal evolution and multiple self-focusing of ultrashort pulses in a resonant two-level medium.pdf

9. Keyu Xia, Yueping Niu*, Ni Cui and Shangqing Gong*, 'Ultrafast transient ring-shaped population grating', Phys. Rev. A 77(1), 013802 (2008). PRA77p013802 Ultrafast transient ring-shaped population grating.pdf

8. Jian Luo*, Keyu Xia, Yueping Niu and Shangqing Gong, 'The local-field corrective effect on Rabi oscillation of ultrashort pulse excitation in semiconductor GaAs', J. Mod. Opt. 55(11), 1713-1722 (2008). JMO55p1713.pdf

2007

7. Keyu Xia, Yueping Niu*, Ruxin Li, Shiqi Jin and Shangqing Gong*, 'Transient population and polarization grating induced by (1+1) dimensional ultrashort dipole soliton', Phys, Rev. A 75(5), 053816 (2007). PRA75p053816 Transient population and polarization gratings induced by (1+1)-dimensional ultrashort dipole soliton.pdf

6. Keyu Xia, Yueping Niu, Chunfang Li and Shangqing Gong*, 'Absolute phase control of spectra effects in a two-level medium driven by two-color ultrashort laser pulses', Phys. Lett. A 361(1-2), 173-177 (2007). PLA Absolute phase control of spectra effects.pdf

5. Lichun Wang, Keyu Xia, Hui Sun, Yueping Niu and Shangqing Gong, 'Femotosecond laser pulse propagation in a metallic nano-slit array', Chin. Opt. Lett., 5(S1), S126-S128 (2007). COL5pS126 Femtosecond laser pulse propagation in a metallic nano-slit array.pdf

4. Xia Ke-Yu, Gong Shang-Qing*, Niu Yue-Ping, Li Ru-Xing and Xu Zhi-Zhan, Accurate determination of the absolute phase and temporal-pulse phase of few-cycle laser pulses, Chin. Phys., 16(2), 472-477 (2007).  absolute phase Chinese Physics.pdf

2005

3. Keyu Xia, Shangqing Gong, Chengpu Liu, Xiaohong Song and Yueping Niu, 'Near dipole-dipole effects on the propagation of few-cycle pulse in a dense two-level medium', Opt. Express, 13(16), 5913-5924 (2005). OE13p5913 Near dipole-dipole effects on the propagation of few-cycle pulse in a dense two-level medium.pdf

2004

2. 夏可宇,于荣金,孟华茂,“1x7锥形混合棒塑料光纤耦合器”,《光子学报》,Vol.33, No. 8, 908-911 (2004). pdf 

1. Xia Keyu, Yu Rongjin and Meng Huamao, 'Realization of Tapered Waveguide by Stretching the Rod Waveguide', Semiconductor Photonics and Technology, 10(2), 82-85 (2004).Realization of Tapered Waveguide by Stretching the Rod Waveguide.pdf