1. Education experience
| 09/2014 – 06/2019 | Institute of Semiconductors, CAS —— Microelectronics and Solid State Electronics |
| 09/2010 – 07/2014 | University of Science and Technology of China, CAS —— Bachelor in Optical Information Science and Technology |
2. Work experience
| 07/2019 – now | Institute for Integrative Nanosciences, IFW Dresden |
3. Project experiences
| New type semiconductor laser and multi-function photonic integration ——————- 2013-2017 National Natural Science Foundation |
| Purpose:Develop high-power, wavelength-tunable, high-speed modulation lasers for monolithic photonic integration to meet the growing bandwidth and capacity requirements of optical communications. 1. Combined with Comsol software simulation, a small-sized dual-mode laser with a variable curvature was proposed and developed. 2. Combined with the simulation of Matlab software, the systematic research on the arc-shaped multi-deformation microcavity is carried out. The guiding law of the chaos in arc-sides polygonal microcavity is found, and the fiber coupling efficiency of the microcavity laser exiting light is improved. 3. Nonlinear dynamics of a pair of microring lasers connected by waveguide are investigated numerically and experimentally. Four-wave mixing, injection locking and multi-period oscillation states are demonstrated for the twin lasers. Numerical simulation indicates the twin lasers coupled through the waveguide and the scattering field simultaneously. |
| high-speed pulsed photonic crystal laser based on coupled microcavity —————— 2016-2019 Natural Science Fund Project |
| Purpose:developing high-speed pulsed photonic crystal laser capable of generating high-speed laser signals and applicable to on-chip optical clock generation. A solid foundation for on-chip integration of high-speed microcavity photonic devices. 1. I mainly undertake the theoretical and simulation work in the project. The rate equation of the coupled cavity is obtained from the Heisenberg equation of motion. Different from the traditional mode-locking mechanism using saturable absorption, the new Q-switching mechanism caused by the detuning of the coupling cavity during laser operation is proposed. The feasibility of the pulsed laser is theoretically proved. |
| Tunable topology in photonic crystal ——————————-2019-now IFW excellence programme |
| Purpose:investigating the topological boundary states and the topological phase transitions of topological photonic crystals (TPCs) |