姓名 金钊

基本信息 出生年月 1990.01 学位 博士 职称 讲师

教育背景

2008.09-2012.07 延边大学 理学院 物理学（光通信）专业 学士学位

2012.09-2015.07 延边大学 理学院 理论物理专业 硕士学位

2015.09-2019.07 哈尔滨工业大学 物理学院 理论物理专业 博士学位

工作履历

2023.10 - 现在， 沈阳工业大学，讲师

2023.02 - 2023.08，陆军炮兵防空兵学院 讲师

2019.07 - 2023.02，东北大学材料科学与工程学院，青年教师博士后

社会兼职

无

学科方向：

物理（量子物理与量子信息）

教学研究方向：激光原理、原子物理、大学物理、量子光学课程建设、教学改革等

研究领域：

1、量子耗散动力学

2、里德堡原子

3、杂化量子系统稳态动力学

学术成果

1、科研项目

[1] 耗散量子系统中的量子纠缠及量子相干操控研究，国家自然科学基金地区科学基金项目，11564041, 44万，参与

[2] 固态量子系统耗散动力学操控及分布式纠缠态制备，中央高校基本科研业务费，01270012810176, 10万，主持

2、论文

[1] Li, Xuesi; Liu, Dongyan; Jin, Zhao; He, Chunlin. Crossed Andreev reflection in normal-superconductor-normal junction based on Kekulé-Y patterned graphene. Journal of Physics: Condensed Matter 36(29), 2024, 295302. (WOS: 001208050900001)

[2] Li, Rui; He, Shuang; Meng, Zhijun; Jin, Zhao, Gong, Weijiang. Engineering Knill-Laflamme-Milburn Entanglement via dissipation and coherent population trapping in Rydberg Atoms. Chinese Physics Letters 40(6), 2023, 060302. (WOS:001024462700001)

[3] Zhao，Peizi; Jin，Zhao*; Tong Dianmin. Dissipative Preparation of Generalized Bell States with the Sørensen-Molmer Setting. Physical Review Applied 18(1), 2022, 014051. (WOS:000832595300003)

[4] Huang, Piaopiao; He, Jing; Li, Jiarui; Wu, Haina; Zhang, Lianlian; Jin, Zhao; Gong, Weijiang.

Transmission through a one-dimensional photonic lattice modulated by the side-coupled PT-symmetric non-Hermitian Su-Schrieffer-Heeger chain. Journal of the Optical Society of America B 38(4), 2021, 1331. (WOS: 000636817900037)

[5] Jin, Zhao; Gong Weijiang; Zhu Aidong; Zhang Shou; Qi Yang; Su Shilei. Dissipative preparation of qutrit entanglement via periodically modulated Rydberg double antiblockade. Optics Express, 2021, 29(7), 10117.( WOS:000635208000031)

[6] Jin Zhao; Li, Rui; Gong, Weijiang; Qi, Yang; Zhang, Shou; Su, Shilei. lmplementation of the Rydberg double anti-blockade regime and the quantum logic gate based on resonant dipole-dipole interactions ActaPhysica Sinica, 2021, 70(13), 134202. (WOS:000672791600008).

[7] Li, Meng; Guo, fuqiang; Jin, Zhao; Yan, Leilei; Liang, Eerjun; Su, Shilei. Multiple-qubit controlled unitary quantum gate for Rydberg atoms using shortcut to adiabaticity and optimized geometric quantum operations Physical Review A, 2021, 103(6), 062607. (WOS:000662295900003)

[8] Xu, Tongtong; Zhang, Lianlian; Jin, Zhao; Gong, Weijiang. Relative phase-dependent two-electron emission dynamics with two-color circularly polarized laser fields Chinese Physics B, 2020, 29(9), 093202. (WOS:000566165500001)

[9] Zhang, Di; Li, Xuesi; Zhang, Lianlian; Fan, Dongze; Jin, Zhao; Gong, Weijiang. PT-symmetric non-Hermitian AB-stacked bilayer honeycomb photonic lattice. Journal of the Optical Society of America B, 2020, 37(11), 3407. (WOS:000583700500070)

[10] Jin, Zhao; Zhu, Ai-Dong; Zhang, Shou; Qi, Yang; Su, S-L. Generation of distributed steady entangled state between two solid-state spins Quantum Information Processing, 2020, 19(9), 318.(WOS:000567468300006)

[11] Yang, Junya; Jin, Zhao; Liu, Jinsong; Wang, Hongfu; Zhu, Aidong. Unconventional Phonon Blockade in a Tavis-Cummings Coupled Optomechanical System. Annalen Der Physik 2020, 532(12), 2000299. (WOS:000571907400001)

[12] Zhu, Xiaoyu; Jin, Zhao; Liang, Erjun; Zhang, Shou; Su, Shilei. Preparation of Steady 3D Dark State Entanglement in Dissipative Rydberg Atoms via Electromagnetic Induced Transparency. Annalen Der Physik 2020, 532(6), 2000059. (WOS:000531298800001)

[13] Guo, Fuqiang; Wu, Jinlei, Zhu, Xiaoyu; Jin, Zhao; Zeng Y, Zhang Shou; Yan, Leilei, Feng, Mang, Su, Shilei. Complete and nondestructive distinguishment of many-body Rydberg entanglement via robust geometric quantum operations Physical Review A 2020, 102(6), 062410. (WOS:000599350100005)

[14] Jin, Zhao; Su, S. L.; Zhang, Shou. Preparation of a steady entangled state of two nitrogen-vacancy centers by simultaneously utilizing two dissipative factors. Physical Review A 2019, 100(5), 052332. (WOS:000498844600002)

[15] Wu, Hejin; Jin, Zhao; Zhu Aidong. Optimized decoherence suppression of tripartite entanglement in finite temperature environments using weak measurement and quantum measurement reversal. International Journal Of Theoretical Physics 2019, 17(1), 1950001. (WOS:000460556200001)

[16] Jin, Zhao; Su, S.-L.; Zhu, Aidong; Wang, Hongfu; Zhang, Shou. Engineering multipartite steady entanglement of distant atoms via dissipation. Frontiers of Physics 2018, 13(5), 134209. (WOS:000444463500001)

[17] Wu, Hejin; Jin, Zhao; Zhu Aidong. Protection of Telecloning Over Noisy Channels with Environment-Assisted Measurements and Weak Measurements. International Journal Of Theoretical Physics 2018, 57(4), 1235. (WOS:000427676300028)

[18] Jin, Zhao; Su, S.-L.; Zhu, Aidong; Wang, Hongfu; Shen, Lituo, Zhang, Shou. Generation of steady entanglement via unilateral qubit driving in bad cavities. Scientific Reports 2017, 7, 17648. (WOS:000418250800033)

[19] Jin, Zhao; Su, S.-L.; Zhu, Aidong; Wang, Hongfu; Zhang, Shou. Engineering steady-state entanglement via dissipation in coupled cavities. Laser Physics Letters 2017, 14(5), 055206. ( WOS:000399283700001)

[20] Jin, Zhao; Su, S.-L.; Zhu, Aidong; Wang, Hongfu; Zhang, Shou. Dissipative preparation of distributed steady entanglement: an approach of unilateral qubit driving. Optics Express 2017, 25(1), 88. (WOS:000396510600008)

[21] Guan, Siyu; Jin, Zhao; Wu, Hejin; Zhu, Aidong; Wang, Hongfu; Zhang, Shou. Restoration of three-qubit entanglements and protection of tripartite quantum state sharing over noisy channels via environment-assisted measurement and reversal weak measurement. Quantum Information Processing 2017, 16(5), 137. (WOS:000399780200026)

[22] Wu, Songyang, Cui, Wenxue; Jin, Zhao; Zhang, Shou; Wang, Hongfu. Scheme for generating a long-distance two-photon entangled state in a noisy channel via time-bin encoding and decoding. Journal of the Optical Society of America B 2017, 34(2), 412. (WOS:000394028400026)

[23] Su, Shilei; Liang, Erjun; Zhang, Shou, Wen, Jingji, Sun, Lili; Jin, Zhao; Zhu, Aidong. One-step implementation of the Rydberg-Rydberg-interaction gate. Physical Review A 2016, 93(1), 012306. (WOS:000367659100004)

[24] Sun, Wenmei; Su, S.-L.; Jin, Zhao; Liang, Yan, Zhu, Aidong; Wang, Hongfu, Zhang, Shou. Dissipative preparation of three-atom entanglement state via quantum feedback control. Journal of the Optical Society of America B 2015, 32(9), 1873. (WOS:000360813800016)

[25] Jin, Zhao; Ji, Yanqiang; Zhu, Aidong; Wang, Hongfu; Zhang, Shou. A robust scheme for implementing optimal economical phase-covariant quantum cloning with quantum-dot spins in optical microcavities. Optics Communications 2014, 315,265. (WOS:000331596400046)

[26] Ji Yanqiang; Jin Zhao; Zhu Aidong; Wang Hongfu; Zhang, Shou. Complete hyperentangled state analysis and generation of multi-particle entanglement based on charge detection. Chinese Physics B 2014, 23(5), 050206. (WOS:000336081900009)

[27] Ji Yanqiang; Jin Zhao; Zhu Aidong; Wang Hongfu; Zhang, Shou. Concentration of multi-photon entanglement with linear optics assisted by quantum nondemolition detection. Journal of the Optical Society of America B 2014, 31(5), 994. (WOS:000335494000009)

[28] Jin, Zhao; Ji, Yanqiang; Zhu, Aidong; Wang, Hongfu; Zhang, Shou. Deterministic implementation of optimal symmetric quantum cloning with nitrogen-vacancy centers coupled to a whispering-gallery microresonator. Journal of the Optical Society of America B 2014, 31(10), 2516. (WOS:000343245800045)

[29] Jin, Zhao; Ji, Yanqiang; Su, Shilei, Si, B; Wang, Hongfu; Zhang, Shou; Zhu, Aidong. Nondestructive entanglement analysis and generation with atoms in low-q cavities assisted by coherent light. International Journal of Quantum Information 2013, 11(6), 1350055. (WOS:000328903100002)

奖励与荣誉

科研、教学获奖

[1] 沈阳工业大学青年教师教学基本功大赛一等奖

[2] 第二十八届辽宁省教育教学信息化交流活动微课组三等奖

[3] 2024年度沈阳工业本科课程思政优秀教学案例二等奖、微视频三等奖

联系方式：

邮箱：z.jin@sut.edu.cn