助理教授，硕士生导师，深圳市海外高层次人才，2018年博士毕业于中国人民大学物理学院。本人长期从事量子科学研究，涵盖凝聚态物理、冷原子和量子信息领域。近年来聚焦量子开放系统中的包括量子同步和时间晶体等非平衡振荡现象、以及相关量子计量学的研究。其中：a)在国际上首次提出利用耗散调控安德森局域化（绝缘体）-扩展态（金属）转变的新机制，是首个被学校主页(https://www.sztu.edu.cn/info/1028/1132.htm)和学术公众号(https://mp.weixin.qq.com/s/9ao9SbQ60oVYIsZb73pu_Q)联合专题报道的量子研究进展，在量子输运和调控领域引起广泛关注和高度评价[Phys. Rev. Lett. 132, 216301 (2024)]；b)在国际上首次提出无需外界驱动的连续时间晶体机制，获得审稿人的高度评价[Communications Physics 8, 114 (2025)]；c)发现耗散可调控量子自旋关联[Phys. Rev. B 110, 155129 (2024)];d)诱导趋肤效应并改变量子驰豫行为[Phys. Rev. B 108, 054313 (2023)]；e) 观测到耗散比特的量子同步[Phys. Rev. Research 5, 033209 (2023)]。以第一作者和通讯作者发表学术论文17篇，包括：

[1] Communications Physics 1篇，

[2] Physical Review Letters 1篇，

[3] Physical Review A 8篇，

[4] Physical Review B 4篇，

[5] Physical Review Research 1篇。

此外，本人长期担任Physical Review Letter/A/B/E/R/X-Quantum/Applied、IOP、Cell Press 等期刊的审稿人，国内外受邀学术报告20余次。主持包括国自然面上和青年C项目在内的三项国家级项目、两项省市级项目，并获得2024年度深圳技术大学年度考核优秀（不高于10%）和科研与校企合作部年度先进个人奖。

Biography：Jianwen Jie, Assistant Professor, Master’s Supervisor, Shenzhen Overseas High-Level Talent, Ph.D. in Physics, Renmin University of China, 2018. My research focuses on quantum science, spanning condensed matter physics, cold atoms, and quantum information. In recent years, I have been working on non-equilibrium oscillatory phenomena in open quantum systems, such as quantum synchronization and time crystals, and related quantum metrology. Notable achievements include: a) Proposing, for the first time internationally, a novel mechanism utilizing dissipation to control the Anderson localization (insulator)-extended state (metal) transition. This work was the first quantum research progress at the university to be jointly featured on the institutional homepage and an academic public platform, garnering widespread attention and high praise in quantum transport and control [Phys. Rev. Lett. 132, 216301 (2024)]; b) Proposing a mechanism for a drive-free continuous time crystal, which received high appraisal from reviewers [Commun. Phys. 8, 114 (2025)]; c) Discovering that dissipation can modulate quantum spin correlations [Phys. Rev. B 110, 155129 (2024)]; d) Demonstrating dissipation-induced skin effects and their impact on quantum relaxation dynamics [Phys. Rev. B 108, 054313 (2023)]; e) Observing quantum synchronization of dissipative qubits [Phys. Rev. Res. 5, 033209 (2023)]. I have published 17 papers as first author or corresponding author. Additionally, I serve as a regular reviewer for journals including Physical Review Letters/A/B/E/R/X-Quantum/Applied、IOP and Cell Press, and have been invited to give over 20 academic presentations domestically and internationally. I have led three national-level projects, including an NSFC General Program and an NSFC Young Scientist Fund, as well as two provincial/municipal-level projects. I was awarded the 2024 Shenzhen Technology University Annual Assessment Excellence (awarded to top ≤10%) and the Annual Outstanding Individual Award from the Office of Scientific Research and Industry-Academia Cooperation.

招聘岗位与研究生：专职(副)研究员、博士后、博士生、学术型硕士研究生（物理学）、专业型硕士研究生（光电信息工程）、本科生、访问研究生等。欢迎有相关物理背景，工作踏实并对物理研究充满兴趣的同学或青年学者来信咨询和加入。（更新时间2026-04）

Positions Available & Students Wanted: Full-time (Associate) Researcher, Postdoctoral Researcher, Ph.D. Students, Academic Master's Students (Physics), Professional Master's Students (Optoelectronic Information Engineering), Undergraduate Students, and Visiting Graduate Students. We welcome motivated students and young scholars with relevant physics backgrounds and a strong interest in physics research to inquire and join us. (Last updated: April 2026)

工作经历

2023.04 ~ 至今 深圳技术大学，工程物理学院，助理教授

2021.02 ~ 2023.04 南方科技大学，理学院，博士后，导师：吴志钢 研究员

2018.03 ~ 2021.01 俄克拉荷马大学 (The University of Oklahoma，USA)，物理系&量子技术研究中心， 博士后，导师：Prof. Doerte Blume

教育经历

2013.09 ~ 2018.06 中国人民大学 物理学院，物理学博士学位，导师：张芃 教授

2011.09 ~ 2013.06 华北电力大学 数理系，应用物理学专业，理学学士学位，导师：阎占元 教授

2009.09 ~ 2011.09 华北电力大学 机械工程学院，输电线路专业，学习

主持的科研项目

1. 国家自然科学基金面上项目：开放量子系统中非平衡周期振荡的机制与应用，2026/1-2029/12，主持（在研）

2. 深圳市自然科学基金面上项目：面向量子传感的工程化耗散量子同步与机器学习研究，2025/10/21-2028/10/20，主持（在研）

3. 博士后留深资助项目：超冷原子分子物理中若干前沿问题研究，2023/11-2026/11，主持（在研）

4. 国家自然科学基金青年项目：多分量量子玻色气体的基础研究与应用，2022/1-2024/12，主持（结题）

5. 中国博士后科学基金面上项目：原子离子系统中的量子同步，2022/06-2023/04，主持（结题）

参与的科研项目

1. 国家自然科学基金面上项目：超冷原子分子气体中量子散射过程的控制，2017/01-2020/12，参与（结题）

2. 广东省量子科学战略专项：光电集成冷原子CPT钟的关键物理问题与技术实现, 2023/10-2026-09, 参与（在研）

一作/通讯论文（18篇）：*（共同）第一作者(First author)，^†通讯作者 (Corresponding author)

1. Jun Wang*, Shu Yang*, Zeqing Wang, Ran Qi, Haiping Hu, Weidong Li^†, Jianwen Jie^†, Non-Resonant Boundary Time Crystals from Quantum Synchronization Breakdown, arXiv:2603.14311

2. Shuo Dai, Zeqing Wang, Liang-Liang Wan, Weidong Li, Augusto Smerzi, Ran Qi^†, Jianwen Jie^†, Universal Manipulation of Quantum Synchronization in Spin Oscillator Networks, Phys. Rev. B 113, 054306 (2026）

3. Jianwen Jie*, Shi Chen*, Yue Chen^†, Ran Qi^†, Exact Solutions and Quantum Defect Theory for van der Waals Potentials in Ultracold Molecular Systems, J. Phys. B: At. Mol. Opt. Phys. 58 175201 (2025).

4. Shu Yang, Zeqing Wang, Libin Fu^†, Jianwen Jie^†, Emergent Continuous Time Crystal in Dissipative Quantum Spin System without Driving, Communications Physics 8, 114 (2025).

5. Zeqing Wang, Ran Qi, Yao Lu, Zhigang Wu^†, Jianwen Jie^†, Absence of Correlations in Dissipative Interacting Qubits: a No-Go Theorem, Phys. Rev. B 110, 155129 (2024).

6. Yaru Liu, Zeqing Wang, Chao Yang, Jianwen Jie^†, and Yucheng Wang^†, Dissipation-induced extended-localized transition, Phys. Rev. Lett. 132, 216301 (2024).

7. Liyun Zhang*, Zhao Wang*, Yucheng Wang, Junhua Zhang, Zhigang Wu, Jianwen Jie^†, Y. Lu^†, Quantum synchronization of a single trapped-ion qubit, Phys. Rev. Research 5, 033209 (2023).

8. Zeqing Wang, Yao Lu, Yi Peng, Ran Qi, Yucheng Wang^†, and Jianwen Jie^†, Accelerating relaxation dynamics in open quantum systems with Liouvillian skin effect, Phys. Rev. B 108, 054313 (2023).

9. Jianwen Jie, Shan Zhong, Qimin Zhang, Isaiah Morgenstern, Hio Giap Ooi, Q. Guan, Anita Bhagat, Delaram Nematollahi, A. Schwettmann, and D. Blume, Dynamical mean-field-driven spinor-condensate physics beyond the single-mode approximation, Phys. Rev. A 107, 053309 (2023).

10. Jianwen Jie^†, Qingze Guan^†, and Jian-Song Pan^†, Many-body localization of one-dimensional degenerate Fermi gases with cavity-assisted non-local quasiperiodic interactions, Phys. Rev. A 106, 023307 (2022).

11. Peng Yi*, Jianwen Jie*, Dapeng Yu, and Yucheng Wang^†, Manipulating non-Hermitian skin effect via electric fields, Phys. Rev. B 106, L161402 (L) (2022).

12. Jianwen Jie, Yonghong Yu, Dajun Wang, and Peng Zhang, Laser Control of Singlet-Pairing Process in an Ultracold Spinor Mixture, Physical Review A 103 (5), 053321 (2021).

13. Jianwen Jie, Q. Guan, S. Zhong, A. Schwettmann, and D. Blume, Mean-field spin-oscillation dynamics beyond the single-mode approximation for a harmonically trapped spin-1 Bose-Einstein condensate, Phys. Rev. A 102, 023324 (2020)

14. Jianwen Jie^†, Q. Guan^†, and D. Blume^†, Spinor Bose-Einstein condensate interferometer within the undepleted pump approximation: Role of the initial state, Phys. Rev. A 100, 043606 (2019).

15. Jianwen Jie, Ran Qi^†, and Peng Zhang^†, Universal relations of an ultracold Fermi gas with arbitrary spin-orbit coupling, Phys. Rev. A 97, 053602 (2018).

16. Jianwen Jie and Peng Zhang^†, Center of Mass Momentum Dependent Interaction Between Ultracold Atoms, Phys. Rev. A 95, 060701 (R) (2017).

17. Jianwen Jie and Ran Qi^†, Exact two-body solutions and quantum defect theory of two-dimensional dipolar quantum gas, J. Phys. B: At. Mol. Opt. Phys. 49, 194003 (2016).

18. Jianwen Jie, Yawen Zhang, and Peng Zhang^†, Suppression of two-body collisional losses in an ultracold gas via the Fano effect, Phys. Rev. A 93, 022705 (2016).