Zhujing

Doctor of nuclear and particle physics, University of science and technology of China

Postdoctoral Fellow, Department of physics, East China Normal University

Lecturer, Department of physics, East China Normal University

I graduated from the Department of modern physics of the University of science and technology of China with a Bachelor of Science degree. In 2009, I received a doctorate in science from the Department of modern physics of the University of science and technology of China, and now works in the school of physics and Electronic Sciences of East China Normal University. The main research fields are NMR technology development and pulse sequence design. 

Research interests include: 

1. Research on shaped pulse in NMR experiment, emphasis on pulse making research and design, environmental correction and compensation of real spectrometer, and theoretical research on gradient field. 

2. Quantum algorithm and experimental implementation based on NMR. For example, the experimental observation of mixed geometric phase under the unified framework; Experimental observation of the topological phase of the maximum entangled particle pair; Experimental realization of one-way quantum computing of DJ algorithm, etc. 

3. Experimental study of NMR and color center MRI in liquid crystals.

In the scientific research work, many articles have been published on EPL and PRA, including: the mixed geometric phase (Uhlmann phase and Sjoqvist phase) has been experimentally observed and unified into the same framework, which is the first experimental observation of Uhlmann geometric phase. In addition, the topological phase has been experimentally observed, which is directly related to the double connectivity property of SO(3). The unidirectional quantum computation of DJ algorithm is realized, which is the first experimental implementation of unidirectional quantum algorithm in liquid nuclear magnetic resonance system, and is realized on a graph state different from the linear 4 qubit graph state; The quantum random walk search algorithm is completed in the liquid crystal system. 

In the teaching work, I won the first prize in the Shanghai division of the fourth Higher Education Cup National Young Teachers' lecture competition for basic physics courses in Colleges and universities.

1. The research of shaped pulse in NMR experiment, the research and design of pulse making, the correction and compensation of real spectrometer environment, and the theoretical research of gradient field.

2. Quantum algorithm and experimental implementation based on NMR. For example, the experimental observation of mixed geometric phase under the unified framework; Experimental observation of the topological phase of the maximum entangled particle pair; Experimental realization of one-way quantum computing of DJ algorithm, etc.

3. Experimental study of NMR in liquid crystal.

4. Diamond NV color center micro magnetic resonance.

College Physics C

Digital logic circuits

Participated in the national key R & D program of application development for micro magnetic resonance research

2018, The first prize in Shanghai division of Higher Education Cup National Young Teachers' lecture competition for basic physics courses in Colleges and universities by Shanghai Physics Association.