基本信息：

姓名：吴玲娜

邮箱：lingna.wu@hainanu.edu.cn

研究兴趣：量子精密测量；开放系统；量子模拟

教育经历：

2011-09 至 2017-07, 清华大学, 物理学, 博士

2007-09 至 2011-07, 北京交通大学, 光信息科学与技术, 学士

工作经历：

2022-12 至 今， 海南大学，教授

2020-04 至 2022-12, 德国柏林工业大学，博士后

2017-10 至 2020-03, 德国马克斯-普朗克复杂物理研究所，博士后

招生与博后信息：

招收硕士，博士研究生。招聘博士后。

荣誉奖励：

研究成果“利用量子相变确定性制备出多粒子纠缠态”获“2017年度中国科学十大进展”

代表性论文：（#为共同第一作者，*为通讯作者）

1. “Indication of critical scaling in time during the relaxation of an open quantum system.”

Ling-Na Wu, Jens Nettersheim, Julian Feß, Alexander Schnell, Sabrina Burgardt, Silvia Hiebel, Daniel Adam, André Eckardt and Artur Widera,

Nature Communications 15, 1714 (2024).

2. “Detection of Entangled States Supported by Reinforcement Learning.”

Jia-Hao Cao, Feng Chen, Qi Liu, Tian-Wei Mao, Wen-Xin Xu, Ling-Na Wu* and Li You*,

Phys. Rev. Lett. 131, 073201 (2023).

3. “Cyclic nonlinear interferometry with entangled non-Gaussian spin states.”

Qi Liu, Tian-Wei Mao, Ming Xue, Ling-Na Wu* and Li You*,

Phys. Rev. A 107, 052613 (2023).

4. “Heat transport in an optical lattice via Markovian feedback control.”

Ling-Na Wu and André Eckardt*,

New J. Phys. 24 123015 (2022).

5. “Quantum engineering of a synthetic thermal bath for bosonic atoms in a one-dimensional optical lattice via Markovian feedback control.”

Ling-Na Wu and André Eckardt*,

SciPost Phys. 13, 059 (2022).

6. “Cooling and state preparation in an optical lattice via Markovian feedback control.”

Ling-Na Wu and André Eckardt*,

Phys. Rev. Research 4, L022045 (2022).

7. “Nonlinear interferometry beyond classical limit enabled by cyclic dynamics.”

Qi Liu#, Ling-Na Wu#, Jia-Hao Cao, Tian-Wei Mao, Xin-Wei Li, Shuai-Feng Guo, Meng Khoon Tey and Li You*,

Nature Physics 18, 167–171 (2022).

8. “Prethermal memory loss in interacting quantum systems coupled to thermal baths.”

Ling-Na Wu* and André Eckardt*,

Phys. Rev. B 101, 220302(R) (2020).

9. “Bath-Induced Decay of Stark Many-Body Localization.”

Ling-Na Wu* and André Eckardt*,

Phys. Rev. Lett. 123, 030602 (2019).

10. “Describing many-body localized systems in thermal environments.”

Ling-Na Wu*, Alexander Schnell, Giuseppe De Tomasi, Markus Heyl and André Eckardt*,

New J. Phys. 21, 063026 (2019).

11. “Extreme spin squeezing from deep reinforcement learning.”

Feng Chen, Jun-Jie Chen, Ling-Na Wu*, Yong-Chun Liu*, and Li You*,

Phys. Rev. A 100, 041801(R) (2019).

12. “Beating the classical precision limit with spin-1 Dicke states of more than 10,000 atoms.”

Yi-Quan Zou#, Ling-Na Wu#, Qi Liu, Xin-Yu Luo, Shuai-Feng Guo, Jia-Hao Cao, Meng Khoon Tey* and Li You*,

PNAS 115, 6381 (2018).

13. “Deterministic entanglement generation from driving through quantum phase transitions.”

Xin-Yu Luo#, Yi-Quan Zou#, Ling-Na Wu#, Qi Liu, Ming-Fei Han, Meng Khoon Tey* and Li You*,

Science 355, 620–623 (2017).