Jiabao Peng

• Last year, I applied for and secured a part-time position as a Research Assistant at Gaze Technology Company. In this role, my responsibilities included assisting in research to calculate the thickness of thin films on semiconductors through the analysis of spectra and other information. Through this experience, I gained a profound understanding of the practical application value of optics.

Starting from the second year of my master's program, I immersed myself in the research of topological circuits. Specifically, I focused on implementing topological states such as the RPS chain through simple circuit structures. Concurrently, I engaged in the design and implementation of materials with anisotropic thermal conductivity using deep learning techniques.

During the second semester of my senior year, I actively participated in the theoretical modeling and research of nickel-based superconductors, which became the focus of my graduation thesis. Through this experience, I acquired skills in utilizing Python for quantum Monte Carlo calculations, specifically conducting simulated studies on hole-doped states in the two-dimensional nickel-oxygen plane system.

During my junior year, I participated in an advanced innovation practice course offered by our university. I joined a research group within the university to engage in scientific research. The research project focused on the thermal conduction issues of compressed shock waves formed in dust plasma under a 2D Tonks-Girardeau system.

The project initially involved simulating compressed shock waves in a two-dimensional Tonks-Girardeau system using LAMMPS. I recorded velocity and position data for each simulated particle and conducted a detailed analysis of the data. The aim was to investigate the thermal conduction problem from the shock front to the undisturbed region through data analysis.