姓名:李文琳
职称:副教授
专业:物理
所属二级学科:理论物理
研究方向:量子光学、量子信息
E-mail: liwenlin@mail.neu.edu.cn
个人简历:
2023.02—至今 东北大学,理学院,副教授
2018.12—2022.10 Università di Camerino, School of Science and Technolog, 助理研究员
2013.09—2018.6 大连理工大学,理论物理,理学博士学位,博士
2009.09—2013.6大连理工大学,应用物理,理学学士学位,学士
近年来的主要研究工作:
1.量子光学系统中的非线性动力学求解
2.多体量子系统的非线性性质
3.基于光力系统的微弱信号测量
近年来承担的主要项目(五项):
1. 国家自然科学基金青年科学基金项目(12304389),磁力与多体量子系统中的非高斯量子同步效应及其度量。
近年来发表的代表性论文(十篇):
1.Wenlin Li*, Chong Li, Heshan Song, Non-Hermitian coupling strength induced exceptional points and nonlinear effects , Quantum Information Processing, 24 140 (2025).
2.Wenlin Li*, Jiong Cheng, Jie Li,Mode competition of a phonon laser induced by ultrastrong cavity-magnon coupling. Physical Review A, 111, 013519 (2025).
3.Wenlin Li*, Song-hai Li, Jiong Cheng, X. Y. Zhang,Non-Gaussian mean-field method for self-sustaining optomechanical system. Journal of Statistical Mechanics: Theory and Experiment, 2024, 123204 (2024).
4.Yan Li, Xingli Li*, Wenlin Li*,Quantum synchronization in an all-optical stroboscopic quantum simulator. Physical Review A,110, 062201 (2024).
5.Jiong Cheng, Wenlin Li*, Jie Li*, Synchronization by magnetostriction. Physical Review Research, 5, 043197 (2023).
6.Wenlin Li*, Jiong Cheng, Wei-jiang Gong, Jie Li, Nonlinear self-sustaining dynamics in cavity magnomechanics, Physical Review A,108, 033518 (2023).
7.Wenlin Li*, Analyzing quantum synchronization through Bohmian trajectories, Physical Review A,106, 023512 (2022).
8.Wenlin Li*, Najmeh Es'haqi-Sani, Wen-Zhao Zhang, David Vitali, Quantum Zeno effect in self-sustaining systems: Suppressing phase diffusion via repeated measurements. Physical Review A,103, 043715 (2021).
9.Paolo Piergentili, Wenlin Li, Giovanni Di Giuseppe, and David Vitali*, Nicola Malossi, Riccardo Natali. Two-membrane cavity optomechanics: Non-linear dynamics. New Journal of Physics,23, 073013 (2021).(共同一作)
10.Wenlin Li,Paolo Piergentili, Jie Li, Stefano Zippilli, Riccardo Natali, Nicola Malossi, Giovanni Di Giuseppe, David Vitali, Noise robustness of synchronization of two nanomechanical resonators coupled to the same cavity field. Physical Review A,101, 013802 (2020).
