Sponsor: Shanghai Institute of Technical Physics, CAS

Shanghai Institute of Optics and Fine Mechanics, CAS

Dean: Prof. Zhang Long

Executive dean: Dai Ning

Academician list: Wang Jianyu

The goal of the school is to promote the construction of high-level disciplines in the college with national-level scientific research projects around the strategic needs of the nation. It will strive to build CAS cultivation bases for space gravitational wave detection, space infrared astronomy exploration, new micro-nano laser and high-power ultrafast laser facility. Additionally, it will form research centers with outstanding characteristics and excellent teaching and research teams, build a high-quality postgraduate curriculum system. Adhering to the educational philosophy of “fusion of scientific research and teaching, morality cultivation and capacity-building, adapting to local conditions and serving Zhejiang”, we will build an international first-class school of physics and optoelectronic engineering integrating “education, scientific research and industrialization” .

Center for Condensed Matter and Optoelectronics Physics

Generally, its purpose is to explore the novel optical devices based on micro-nano structure, the joint quantum control technology of electron and light field based on micro-nano structure, the electronic fluctuation based on the new method of infrared near-field detection and other typical non-equilibrium characteristics, the growth and characterization of low-dimensional quantum structure materials, the coherent structure of plasmon resonance cavity-quantum materials, the two-dimensional texture technology of optoelectronic materials, etc.

Research Center for Laser Physics and Technology

It generally studies digital intelligent control technology of high-power laser driver, laser precision measurement and remote sensing technology, space cold atom sensor, ultra-strong and ultra-short laser technology and application; new concept ray imaging technology based on high-order correlation of light field, computational optical imaging technology and application in complex environment, etc.

Research Center for New Photoelectric Detection and Imaging

It generally studies key technologies of space gravitational wave detection load, remote sensing observation mechanism of micro-change process, space-borne traceback physics data transfer technology, computational optical spectrum imaging theory and method, a new wide-band infrared spectrum and its imaging method for planetary spectrum analysis, the generation mechanism and realization method of high-power, high-stability terahertz light source and new mechanism of high-performance terahertz detection.

Research Center for Optoelectronic Materials and Devices

It generally studies the basis and frontier of optical materials, new technologies and methods of optoelectronic devices, structure-activity relationship and system design of reinforced materials, new method and new technology of material production, new principle and technology of micro-nano structure regulation, the limit performance of photoelectric material, the texture technology of photoelectric device and the reliability of device performance in special application environment.

In the initial stage of its construction, the school will seek major breakthroughs in four fields, i.e., the key technologies of space gravitational wave detection, space infrared astronomical detection technologies and verification, new generation micro-nano structure laser sources and devices, and new high-power ultrafast laser basic and advanced applications. It will promote development in the following five directions:

Space terahertz photoelectric detection technology

New concept of infrared and microscopic imaging technology

Science and technology of laser advanced optical functional materials

Novel optical imaging in marine environment and its application

The intersection of physics and life sciences

The five-year construction goal of the school is to cultivate and bring up innovative, research-based and engineering talents with international vision and international competitiveness, to make the school a future training base for top-notch talents in the fields of physics and photoelectric engineering in Zhejiang, particularly in Hangzhou. It seeks to form four subject groups and excellent teaching and research teams, build a high-quality postgraduate curriculum system, with quite a few teaching masters and about ten internationally renowned scientists.