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Research 研究方向

01 Quantum States of Matter and New Quantum Effect

Quantum States of Matter and New Quantum Effect

  • 01

    Supercomputing platform for quantum states

  • 02

    Comprehensive quantum state measurement platform with ultra-low temperature and super-strong magnetic field

  • 03

    Quantum state electron microscope center platform

  • 04

    Quantum material surface scanning probe microscopy system platform

  • 05

    Quantum material electronic structure/crystal structure spectroscopy measurement platform

  • 06

    Quantum material thin film and single crystal synthesis system platform

  • 07

    Quantum material functional device micro-nano processing platform

Research Direction: The research mainly focuses on the basic science and device applications in quantum states of matter. Expected to produce major breakthroughs in: basic theory, experimental technology and device applications in the directions of topology, superconductivity, magnetism and other quantum states of matter.

Person in Charge: Haizhou Lu

Chief Scientists: Maohai Xie, Zikang Tang 


02 Key Core Equipment

Key Core Equipment

Research Direction: The research mainly focuses on the independent research and development of equipment in quantum science research, including high-temperature superconducting thin film material preparation, neutron scattering and synchrotron radiation X-ray technology equipment, single-photon source, and ultra-cold quantum platform.

Person in Charge: Weihua Wang

Chief Scientist: Xiuliang Ma 

Research Content: It is expected to make major breakthroughs in the study of practical high-temperature superconducting thin film materials and their high-frequency response mechanism, the independent research and development of neutron scattering and synchrotron radiation X-ray light source spectrometer, the research and development of high-performance single-photon source, and quantum experimental platform based on the ultra-cold atom and molecule technology.


03 Quantum Computing

Quantum Computing

  • 01

    Hybridization of superconducting circuits and electron spin ensembles

  • 02

    Hybridization of magnons, photons and qubits

  • 03

    Hybridization of superconducting circuits with semiconductor quantum dots

  • 04

    Hybridization of superconducting circuits and nuclear spins

  • 05

    Hybridization of ion traps, atoms and light

Research Direction: The main research focuses on developing new hybrid qubits that combine the advantages of two or more physical systems simultaneously,and better longer coherence time, fast and precise quantum control, multi-bit coupling and scalability, etc. Additionally, it seeks to realize new quantum algorithms to pave the way for the universal quantum computing.

Person in Charge: Bei Zeng

Chief Scientists: Zeyu Au, Jianjun Zhang


04 Atomic, Molecular, and Optical Quantum Properties and Technologies

Atomic, Molecular, and Optical Quantum Properties and Technologies

  • 01

    Metaphotonics and its interplay with quantum materials

  • 02

    Research on quantum properties and control technologies of ultracold atoms

  • 03

    Quantum dynamics of optoelectronic devices

  • 04

    Quantum simulation and manipulation of open quantum systems with non-trivial topological energy bands

Research Direction:The research concentrates on studying a higher precision control of optical field in time, space and frequency domains,and developing reconfigurable, low-loss, high-coherence, high-speed linear and nonlinear optical field control technologies, and the combination with other material systems to realize the preparation of metamaterial devices with practical applications, the transition from phenomenological demonstration to active coherent control of quantum processes.

Person in Charge: Zidan Wang

Chief Scientists: Shiliang Zhu, Shuang Zhang


05 Quantum Precision Measurement and Quantum Sensing

Quantum Precision Measurement and Quantum Sensing

  • 01

    Development of room-temperature quantum chips and devices based on quantum strong coupling effects

  • 02

    Integrated quantum sensing systems with high detection precision based on broadband semiconductor color centers

  • 03

    Multi-parameter precision measurement platform based on diamond NV color center quantum sensor

  • 04

    Mechanisms and key technologies of cold atom quantum sensing

  • 05

    Nonlinear spectroscopy and metrology based on optical quantum states

Research Direction: With quantum precision measurement and quantum sensing as key core technology, parallel/progressive research will be carried on from processing and integration, measurement platform and method development, application expansion.

Person in Charge: Renbao Liu

Chief Scientists: Quan Li, Chaohong Lee


06 Functional Quantum Chips and Technologies

Functional Quantum Chips and Technologies

  • 01

    Quantum dot source

  • 02

    All-optical integrated quantum system

  • 03

    Topological optical quantum chip

  • 04

    Terahertz quantum metasurface

Research Direction: Focusing on the key physical issues and technical obstacles on optical quantum technology chips, we explore topological photonic integrated circuits, generate high-performance on-chip quantum dot light sources through multi-dimensional control, construct a series of integrated quantum devices, to realize functional optical quantum chips.

Person in Charge: Xuehua Wang

Chief Scientist: Siyuan Yu