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姓名:沈宏志

职称:副教授

职务:

性别:男

学历:博士研究生

Email: shenhz458@nenu.edu.cn

出生年月:1987-12

办公电话:

办公地点:量子科学中心506(净月环境楼)

【个人情况综述】

沈宏志,副教授,理学博士,硕士生导师。主要从事量子光学及开放量子系统理论研究,建立了非马尔可夫系统中的非传统单光子阻塞理论;给出了非马尔可夫开放系统中的线性响应公式;基于二阶非线性克尔介质材料研究了量子光学二极管;利用三阶克尔非线性材料实现了非常规单光子阻塞效应;在三能级拉曼原子系统中提出了存储单光子脉冲的方法;基于纯退相干的两模玻色-爱因斯坦凝聚系统给出了平均场近似的BGGKY高阶修正等。任美国光学学会会员,《New Journal of Physics》、《Journal of Physics A》、《Journal of Physics B》、《Journal of Physics C》等IOP 期刊审稿人,在国外重要学术期刊上发表 SCI 论文50余篇(其中美国物理学会Physical Review A/Physical Review E文章25篇)。主持/参与国家(省)自然科学基金青年基金项目 7项, 中国博士后科学基金项目 2 项(一等面上、特别资助)。

【学习工作简历】

2007/09-2011/06   渤海大学   理学学士

2011/09-2016/06   大连理工大学   理学博士(硕博连读)

2016/08-2018/08 东北师范大学 师资博士后

2017/05-2017/06 北京大学量子材料中心访问学者

2018/03-2018/04 西班牙巴斯克大学访问学者

2018/09-至今,  东北师范大学 物理学院 副教授(破格)


主要科研方向量子光学,开放量子系统理论(non-Markovian),量子优化控制与量子器件,量子响应理论,玻色-爱因斯坦凝聚。


【主要科研项目】

1. 中国博士后科学基金会面上一等资助: 非马尔可夫过程对量子响应系数的影响,8万元,2016.10-2018.7,主持。

2. 中国博士后科学基金特别资助:非马尔可夫量子响应理论及其应用,15万元,2017.06-2018.7,主持。

3. 国家自然科学基金青年基金项目:非马尔可夫系统中的单光子阻塞效应及其应用,27万元,2018.01-2020.12,主持。

4. 吉林省教育厅项目:非马尔可夫系统中的光子阻塞效应,5万元,2019.01-2020.12,主持。

5. 国家自然科学基金面上项目:量子开放系统的响应理论及其应用,60万,2018.01-2021.12,参加。

6. 国家自然科学基金面上项目:非平衡开放系统中的量子相干性及其应用,60万,2019.01-2022.12,参加。

7. 东北师范大学理论物理量子信息研究团队的学术交流平台建设,30万,2017.01-2017.12,参加。


【参加学术会议】

1. 超冷原子体系中的少体问题国际会议(北京,参加),20134月。

2. 2017年第三届全国量子物理青年学者研讨会(长春,报告),20177月。

3. 量子少体问题和拓扑物理暑期学习讨论会(长春,主持),20178月。

4. 2017年郑州大学青年学者国际论坛(郑州,邀请报告),201712月。

5. 第十八届全国量子光学学术会议(张家界,报告),201810月。

6. 第八届全国原子分子光物理青年科学家论坛(北京,海报),201810月。

7. 2018东北地区量子物理前沿与进展研讨会(延吉,报告),201810月。


【主要科研成果】*代表通讯作者

1. H. Z. Shen, S. Xu, Su Yi, X. X. Yi, Controllable dissipation of a qubit coupled to an engineering reservoir, Phys. Rev. A 98, 062106 (2018).

2. H. Z. Shen, C. Shang, Y. H. Zhou, and X. X. Yi, Unconventional single-photon blockade in non-Markovian systems, Phys. Rev. A 98, 023856 (2018).

3. H. Z. Shen, S. L. Su, Y. H. Zhou, and X. X. Yi, Non-Markovian quantum Brownian motion in electric fields, Phys. Rev. A 97, 042121 (2018).

4. H. Z. Shen, S. Xu, Hong Li, S. L. Wu, and X. X. Yi, Linear response theory for periodically driven systems with non-Markovian effects, Opt. Lett. 43, 2852 (2018).

5. H. Z. Shen, D. X. Li, S. L. Su, Y. H. Zhou, and X. X. Yi, Exact non-Markovian dynamics of qubits coupled to two interacting environments, Phys. Rev. A 96, 033805 (2017).

6. H. Z. Shen, Hong Li, Y. F. Peng, and X. X. Yi, Mechanism for Hall conductance of two-band systems against decoherence, Phys. Rev. E 95, 042129 (2017).

7. H. Z. Shen, D. X. Li, and X. X. Yi, Non-Markovian linear response theory for quantum open systems and its applications, Phys. Rev. E 95, 012156 (2017).

8. H. Z. Shen, S. Xu, Y. H. Zhou, G. C. Wang, and X. X. Yi, Unconventional photon blockade from bimodal driving and dissipations in coupled semiconductor microcavities, J. Phys. B 51, 035503 (2018).

9. H. Z. Shen, S. S. Zhang, C. M. Dai, and X. X. Yi, Master equation for open two-band systems and its applications to Hall conductance, J. Phys. A 51 065302 (2018).

10. S. L Su, Y. Z. Tian, H. Z. Shen*, H. P. Zang, E. j. Liang, and S. Zhang, Applications of the modified Rydberg antiblockade regime with simultaneous driving, Phys. Rev. A 96, 042335 (2017).

11. S. L Su, H. Z. Shen*, E. j. Liang, and S. Zhang, One-step construction of the multiple-qubit Rydberg controlled-PHASE gate, Phys. Rev. A 98, 032306 (2018).

12. H. Z. Shen, X. Q. Shao, G. C. Wang, X. L. Zhao, and X. X. Yi, Quantum phase transition in a coupled two-level system embedded in anisotropic three dimensional photonic crystals, Phys. Rev. E 93, 012107 (2016).

13. H. Z. Shen, Y. H. Zhou, and X. X. Yi, Tunable photon blockade in coupled semiconductor cavities, Phys. Rev. A 91, 063808 (2015).

14. H. Z. Shen, M. Qin, X. Q. Shao, and X. X. Yi, General response formula and application to topological insulator in quantum open system, Phys. Rev. E 92, 052122 (2015).

15. H. Z. Shen, Y. H. Zhou, H. D. Liu, G. C. Wang, and X. X. Yi, Opt. Express 23, 32835 (2015).

16. H. Z. Shen, W. Wang, and X. X. Yi, Sci. Rep. 4, 6455 (2014).

17. H. Z. Shen, Y. H. Zhou, and X. X. Yi, Quantum optical diode with semiconductor microcavities, Phys. Rev. A 90, 023849 (2014).

18. H. Z. Shen, M. Qin, X. M. Xiu, and X. X. Yi, Phys. Rev. A 89, 062113 (2014).

19. H. Z. Shen, M. Qin, and X. X. Yi, Single-photon storing in coupled non-Markovian atom-cavity system, Phys. Rev. A 88, 033835 (2013).

20. H. Z. Shen, X. M. Xiu, and X. X. Yi, Atom-molecule-conversion system subject to phase noises, Phys. Rev. A 87, 063613 (2013).

21. H. Z. Shen, X. X. Yi, and C. H. Oh, Dynamical signature of the edge state in the 1D Aubry-Andre model, J. Phys. B 47, 085501 (2014).

22. S. Xu, H. Z. Shen, and X. X. Yi, Current in an open tight-binding system, Accepted by Phys. Rev. A (2019).

23. Z. C. Shi, H. Z. Shen, Wei Wang, and X. X. Yi, Phys. Rev. E 93, 032120 (2016).

24. M. Qin, H. Z. Shen, and X. X. Yi, A multi-pathway model for photosynthetic reaction center, J. Chem. Phys. 144, 125103 (2016).

25. Y. H. Zhou, H. Z. Shen, X. Q. Shao, and X. X. Yi, Opt. Express 24, 17332 (2016).

26. Y. H. Zhou, H. Z. Shen, and X. X. Yi, Unconventional photon blockade with second-order nonlinearity, Phys. Rev. A 92, 023838 (2015).

27. M. Qin, H. Z. Shen, X. L. Zhao, and X. X. Yi, Phys. Rev. E 90, 042140 (2014).

28. Y. H. Zhou, H. Z. Shen, X. Y. Zhang, and X. X. Yi, Zero eigenvalues of a photon blockade induced by a non-Hermitian Hamiltonian with a gain cavity, Phys. Rev. A 97, 043819 (2018).

29. H. T. Cui, H. Z. Shen, S. C. Hou, and X. X. Yi, Bound state and localization of excitation in many-body open systems, Phys. Rev. A 97, 042129 (2018).

30. S. Xu, H. Z. Shen, and X. X. Yi, Demultiplexing of photonic temporal modes by a linear system, Phys. Rev. A 97, 033841 (2018).

31. M. Qin, H. Z. Shen, X. L. Zhao, and X. X. Yi, Effects of system-bath coupling on a photosynthetic heat engine: A polaron master-equation approach, Phys. Rev. A 96, 012125 (2017).

32. Y. H. Zhou, H. Z. Shen, X. Y. Luo, Y. Wang, F. Gao, and C. Y. Xin, Tunable three-wave- mixing-induced transparency, Phys. Rev. A 96, 063815 (2017).

33. Y. H. Zhou, S. S. Zhang, H. Z. Shen, and X. X. Yi, Second-order nonlinearity induced transparency, Opt. Lett. 42, 1289 (2017).

34. H. Li, H. Z. Shen, S. L. Wu, and X. X. Yi, Shortcuts to adiabaticity in non-Hermitian quantum systems without rotating-wave approximation, Opt. Express 25, 030135 (2017).

35. Y. F. Peng, C. M. Dai, H. Z. Shen, and X. X. Yi, Optically tunable spin texture of the surface state for Bi2Se3 and SmB6 topological insulators, Opt. Express 26, 18906 (2018).

36. D. X. Li, H. Z. Shen, H. D. Liu and X. X. Yi, Sci. Rep. 8, 1475 (2018).

37. W. Q. Zhang, H. Z. Shen, and X. X. Yi, Hall conductance for open two-band system beyond rotating-wave approximation, Sci. Rep. 6, 16243 (2017).

38. H. J. Shan, C. M. Dai, H. Z. Shen, and X. X. Yi, Control state transfer in a Heisenberg spin chain by periodic drives, Sci. Rep. 8, 13565 (2018).

39. Y. H. Zhou, Q. C. Wu, B. L. Ye, L. Y. Xue, H. Z. Shen*, Second-order Nonlinearity Induced Unconventional Photon Blockade, Int. J. Teor. Phys. (2018).

40. G. C. Wang, H. Z. Shen, C. F. Sun, C. F. Wu, J. L. Chen, and K. Xue, Unconventional photon blockade in weakly nonlinear photonic molecules with bilateral drive, J. Mod. Opt. 64, 583 (2017).

41. Y. H. Zhou and H. Z. Shen, Unconventional photon blockade based on two-photon tunneling, Int. J. Teor. Phys. 56, 2935 (2017).

42. D. X. Li, S. Wu, H. Z. Shen, and X. X. Yi, Adiabatic Evolution of an Open Quantum System in its Instantaneous Steady State, Int. J. Theor. Phys. 56, 3562 (2017).

43. S. Xu, H. Z. Shen, and X. X. Yi, Single photon transistor based on tunable coupling in cavity QED system, J. Opt. Soc. Am. B 33, 1600 (2016).

44. L. Dong, J. X. Wang, Q. Y. Li, H. Z. Shen, H. K. Dong, X. M. Xiu, Y. J. Gao, and C. H. Oh, Nearly deterministic preparation of the perfect W state with weak cross-Kerr nonlinearities, Phys. Rev. A 93, 012308 (2016).

45. L. Dong, J. X. Wang, Q. Y. Li, H. Z. Shen, H. K. Dong, X. M. Xiu, and Y. J. Gao, Single logical qubit information encoding scheme with the minimal optical decoherence-free subsystem, Opt. Lett. 41, 1030 (2016).

46. L. Dong, J. X. Wang, Q. Y. Li, H. Z. Shen, H. K. Dong, X. M. Xiu, Y. P. Ren, and Y. J. Gao, Quantum secure direct communication against the collective noise with polarization-entangled Bell states, Prog. Theor. Exp. Phys. 12, 123A02 (2015).

47. L. Dong, J. X. Wang, H. Z. Shen, Dan Li, X. M. Xiu, Y. J. Gao, X. X. Yi, Deterministic transmission of an arbitrary single-photon polarization state through bit-flip error channe, Quantum Inf. Process 13, 1413 (2014).

48. X. M. Xiu, L. Dong, H. Z. Shen, Y. J. Gao, and X. X. Yi, Two-party quantum privacy comparison with polarization-entangled bell states and the coherent statesQuantum inf.comput. 14, 236 (2014).

49. X. M. Xiu, L. Dong, H. Z. Shen, Y. J. Gao, and X. X. Yi, Construction scheme of a two-photon polarization controlled arbitrary phase gate mediated by weak crossphase modulation J. Opt. Soc. Am. B 30, 589 (2013).

50. L. Dong, Y. F. Lin, J. X. Wang, Q. Y. Li, H. Z. Shen, H. K. Dong, Y. P. Ren, X. M. Xiu, Y. J. Gao, and C. H. Oh. Nearly deterministic Fredkin gate based on weak cross-Kerr nonlinearities, J. Opt. Soc. Am. B 33, 253 (2016).

51. X. M. Xiu, Q. Y. Li, L. Dong, H. Z. Shen, Dan Li, Y. J. Gao, X. X. Yi, Distributing a multi-photon polarization-entangled state with unitary fidelity via arbitrary collective noise channels, Quantum Inf. Process 14, 361 (2015).

52. L. Dong, X. M. Xiu, H. Z. Shen, Y. J. Gao, and X. X. Yi, Quantum Fourier transform of polarization photons mediated by weak cross-Kerr nonlinearity, J. Opt. Soc. Am. B 30, 2765 (2013).

53. L. Dong, X. M. Xiu, H. Z. Shen, Y. J. Gao, and X. X. Yi, Perfect distribution of four-photon χ-type entangled states over an arbitrary collective noise channel by spatial degree of freedom, Opt. Commun. 308, 304 (2013).

54. X. M. Xiu, L. Dong, H. Z. Shen, Y. J. Gao, and X. X. Yi. Preparing, linking, and unlinking cluster-type polarization-entangled states by integrating modules, Prog. Theor. Exp. Phys. 9, 093A01 (2013).


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