Luojia Wang Assistant Researcher
  • Institute of Optical Science and Technology
  • 量子光学、微纳光子学
  • 13811638303
  • Room 418, No. 5 Science Building
  • ljwang@sjtu.edu.cn

2004 - 2008年 北京大学物理学院,理学学士

2008 - 2013年 北京大学物理学院,理学博士

2013 - 2016年 美国德州农工大学Institute for Quantum Science and Engineering,博士后研究员

2016 – 2019年 同济大学物理科学与工程学院,博士后研究员

2019 – 2021年 上海交通大学物理与天文学院,博士后研究员


2021年加入上海交通大学物理与天文学院,任助理研究员。主要从事量子光学及相关领域理论研究。研究对象涉及微纳光子学体系和原子分子光学系统。利用微纳光子学中的动态调制以及量子光学中的量子相干性,研究光与物质相互作用、拓扑光子学、人工合成维度、混合量子系统等前沿科学课题,实现有效的光子操控。此外,我们与实验团队合作,研究空气激光现象中原子分子光学系统的量子相干的作用。近年来与合作者在包括Science Bulletin、Physical Review Applied、ACS Photonics、Communications Physics等高水平期刊中发表学术论文。

  1. P. Ding,* C. Brackmann, M. Ruchkina, M. Zhuzou, L. Wang,* L. Yuan, Y. Liu, B. Hu,* and J. Bood, “Femtosecond laser-induced quantum-beat superfluorescence of atomic oxygen in a flame,” Physical Review A 104, 033517 (2021).

  2. J. Yao#L. Wang#, J. Chen, Y. Wan, et. al., “Photon retention in coherently excited nitrogen ions,” Science Bulletin 66, 1511 (2021).

  3. H. Xiao#L. Wang#, L. Yuan, and X. Chen, “Frequency manipulations in single-photon quantum transport under ultrastrong driving,” ACS Photonics 7, 2010 (2020).

  4. L. Wang, L. Yuan, X. Chen, and S. Fan, “Single-photon transport in a topological waveguide from a dynamically modulated photonic system,” Physical Review Applied 14, 014063 (2020).

  5. A. Zhang#L. Wang#, X. Chen, V. V. Yakovlev, and L. Yuan, “Tunable super- and subradiant boundary states in one-dimensional atomic arrays,” Communications Physics 2, 157 (2019).  

  6. L. Wang, Z.-H. Li, J. Xu, Y. Yang, M. Al-Amri, and M. S. Zubairy, “Exchange unknown quantum states with almost invisible photons,” Optics Express 27, 20525 (2019).

  7. H. Lian, Y. Gu, J. Ren, F. Zhang, L. Wang, and Q. Gong, “Efficient Single Photon Emission and Collection Based on Excitation of Gap Surface Plasmons,” Physical Review Letters 114, 193002 (2015).

  8. X. Shan, I. Díez-Pérez, L. Wang, P. Wiktor, et. al., “Imaging the electrocatalytic activity of single nanoparticles,” Nature Nanotechnology 7, 668 (2012).

  9. Y. Gu, L. Wang, P. Ren, J. Zhang, et. al., “Surface-plasmon-induced modification on the spontaneous emission spectrum via subwavelength-confined anisotropic Purcell factor,” Nano Letters 12, 2488 (2012).

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