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金亮

理论物理

个人资料

  • 部门: 物理学院
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  • 学位: 理学博士
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  • 办公地址: 三教205
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教育经历

2007-2012 理学博士 南开大学 2003-2007 理学学士 南开大学

工作经历

2012-2015 博士后 香港中文大学 2016-今 副教授 南开大学

个人简介

 


研究领域


1.宇称-时间对称非厄米量子理论。

宇称-时间对称光学系统:耦合光波导、微腔阵列

L Jin* & Z Song, Incident Direction Independent Wave Propagation and Unidirectional Lasing, Physical Review Letters 121, 073901 (2018).




2 .自旋电子的微波激光理论。

室温微波、激光器:金刚石室温微波器


L Jin, M Pfender, N Aslam, P Neumann, S Yang, J Wrachtrup & R-B Liu*, Proposal for a room-temperature diamond maser, Nature Communications 6, 8251 (2015).

Selected as a Research Highlights on Nature PhotonicsNature Photonics 9, 707 (2015);
Selected as a
Feature Story on Phys.Org).

Experimentally demonstrated on 2018 Nature 555, 493 (2018).



点击查看原图




3.拓扑量子系统

拓扑量子系统的性质及动力学特性

L Jin*, Topological phases and edge states in a non-Hermitian trimerized optical lattice, Physical Review A 96, 032103 (2017).





4. 量子信息与量子计算。

量子态传输、量子操控:量子比特

L Jin & Z Song*, Generation of Greenberger-Horne-Zeilinger and W states for stationary qubit in aspin network via resonace scattering, Physical Review A 79, 042341 (2009).



点击查看原图



5. 强关联量子系统。

玻色、费米、电子自旋系统:动力学远程量子纠缠制备

L Jin & Z Song*, Fast transfer and efficient coherent separation of a bound cluster in the extended Hubbard model, New Jounal of Physics 13, 063009 (2011).


点击查看原图


教学工作

本科生选修课《高等量子力学》

研究生必修课《高等量子力学》

科研项目

2017-2019,国家自然科学基金-青年项目,22万

2016-2018,天津市自然科学基金,10万

2015-2019,南开百青计划,50万

论文著作

2018年

34. L Jin* & Z. Song, Incident Direction Independent Wave Propagation and Unidirectional Lasing, Phys Rev Lett 121, 073901 (2018).


33. L Jin*, Scattering properties of a parity-time-antisymmetric non-Hermitian system, Phys Rev A 98, 022117 (2018).


32. P Wang, S Lin, L Jin* & Z Song*, Parallel dynamics between non-Hermitian and Hermitian systems, Phys Rev A 97, 062101 (2018).


31. L Jin*, Asymmetric lasing at spectral singularities, Phys Rev A 97, 033840 (2018).


30. L Jin*, Parity-time-symmetric coupled asymmetric dimers, Phys Rev A 97, 012121 (2018).


2017

29. L Jin*, Tolological phases and edge states in a non-Hermitian trimerized optical lattice, Phys Rev A 96, 032103 (2017).


28. L Jin*, P Wang & Z Song, Su-Schrieffer-Heeger chain with one pair of PT-symmetric defects, Sci Rep 7, 5903 (2017).


27. B B Wei* & L Jin*, Universal Critical Behaviours in Non-Hermitian Phase Transitions, Sci Rep 7, 7165 (2017).


26. X. Z. Zhang, L. Jin & Z. Song*, Non-Hermitian description of the dynamics of interchain pair tunneling, Phys Rev A 95, 052122 (2017).


25. C Li, L Jin & Z Song*, Non-Hermitianinterferometer: Unidirectional amplification without distortion, Phys Rev A 95, 022125 (2017).


24. L Jin*, P Wang & Z Song, One-way light transport controlled bysynthetic magnetic fluxes and PT-symmetric resonators, New J Phys 19, 015010 (2017).


2016

23. L Jin*, P Wang & Z Song, Unidirectional perfect absorber, Sci Rep 6, 32919 (2016).


22. L Jin*, Quantum transport in coupled resonators enclosed synthetic magnetic flux, Ann Phys 370, 1 (2016).


21. L Jin* & Z Song, Parity-time symmetry under magnetic flux, Phys Rev A 93, 062110 (2016).


20. P Wang, L Jin*, G Zhang & Z Song, Wave emission and absorption at spectral singularities, Phys Rev A 94, 053834 (2016).


19.  L Jin*, X Z Zhang, G Zhang & Z Song, Reciprocal and unidirectional scattering of parity-time symmetric structures, Sci Rep 6, 20976 (2016).


2015

18. L Jin, M Pfender, N Aslam, P Neumann, S Yang, J Wrachtrup & R-B Liu*, Proposal for a room-temperature diamond maser, Nature Commun 6, 8251 (2015).

Selectedas a Research Highlighton Nature Photonics Nature Photon 9, 707 (2015);

Selectedas a Feature Story on Phys.Org

Experimentally demonstrated in J D Breeze, et al., Continuous-wave room-temperature diamond maser, Nature 555, 493 (2018).


2013

17. W H Hu, L Jin & Z Song*, Dynamics of one-dimensional tight-binding models with arbitrarytime-dependentexternal homogeneous fields,  Quantum Inf. Process 12, 3569 (2013).


16.L Jin & Z Song*, Scaling behavior and phase diagram of a PT-symmetric non-Hermitian Bose-Hubbard system, Ann Phys 330, 142 (2013).


15. X Z Zhang, L Jin & Z Song*, Self-sustainedemission in semi-infinitenon-Hermitian systems at the exceptional point, Phys Rev A 87, 042118 (2013).


2012

14. L Jin & Z Song*, Hermitian scatteringbehavior for a non-Hermitian scattering center, Phys Rev A 85, 012111 (2012).


13. X Z Zhang, L Jin & Z Song*,Perfect state transfer in PT-symmetric non-Hermitian networks, Phys Rev A 85, 012106 (2012).


12. W H Hu, L Jin, Y Li & Z Song*, Probability-preserving evolution in anon-Hermitian two-band model, Phys Rev A 86, 042110 (2012).


2011

11. L Jin & Z Song*, Partitioning technique for discrete quantum systems, Phys. Rev. A 83, 062118 (2011).


10. L Jin & Z Song*, Hermitian dynamics in aclass of pseudo-Hermitian networks, Phys Rev A 84, 042116 (2011).


9. L Jin & Z Song*, A physical interpretation for the non-Hermitian Hamiltonian, J Phys A: Math Theor 44, 375304 (2011).


8. L Jin & Z Song*, Perfect coherent shift of bound pairs in strongly correlated systems, Phys Rev A 83, 052102 (2011).


7. L Jin & Z Song*, Fast transfer andefficient coherent separation of a bound cluster in the extended Hubbard model, New J Phys 13, 063009 (2011).


2010

6. L Jin & Z Song*, Rigorous results fortight-binding networks: Particle trapping and scattering, Phys Rev A 81, 022107 (2010).


5. L Jin & Z Song*, Physicscounterpart of the PT non-Hermitian tight-binding chain, Phys Rev A 81, 032109 (2010).


4. L Jin & Z Song*,Wave packet dynamics in a non-Hermitian PT symmetric tight-binding chain, Commun Theor Phys 54, 73 (2010).


2009

3. L Jin & Z Song*, Solutions of PT-symmetric tight-binding chain and its equivalent Hermitian counterpart, Phys Rev A 80, 052107 (2009).


2. L Jin & Z Song*, Generation of Greenberger-Horne-Zeilinger and W states for stationary qubit inaspin network via resonace scattering, Phys Rev A  79, 042341(2009).


1. L Jin, B Chen & Z Song*, Coherent shift of localized bound pairs in the Bose-Hubbard model, Phys Rev  A 79,  032108 (2009).

学术交流

荣誉奖励


天津市青年千人

南开大学百青

学术成果

学位: 理学博士

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办公地点: 三教205

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