Introduction to the Quantum Information and Measurement & Control Team

Quantum information, measurement and control is a new type of science and technology for information processing, measurement and control, which is based on the resources of coherent states and entangled states in quantum mechanics.

The Quantum Information and Measurement & Control Team is committed to the integrated and interdisciplinary development in the fields of atomic and molecular opto-physics and quantum information. With experiments such as ultracold atomic and molecular systems, trapped ions, and precise measurement and control of photons as the main threads, combined with theoretical research in quantum mechanics, the team strives to achieve world-class original scientific achievements in the directions of quantum simulation, quantum computing, quantum communication, quantum measurement and control, etc., and promote the application of quantum technologies.

Currently, the team has more than 10 faculty and researchers, including 1 professor, 8 associate professors, 2 full-time researchers and post-doctoral fellows, and more than 20 postgraduate students. The main research directions of the team include:

  • Ultracold Atom Quantum Simulation and Computing (Bose-Einstein condensation and Fermi condensation, strongly interacting quantum gases, Rydberg atom quantum computing, molecular quantum gases, atomic optics, precise weak force measurement with cold atoms, etc.)
  • Trapped Ion Quantum Information (modular trapped ion quantum computing, ion-photon entangled networks, ion-photon quantum interfaces, Lorentz symmetry measurement, trapped ion gyroscopes, etc.)
  • Optical Frequency Comb Quantum Measurement & Control and Precision Spectroscopy (ultrafast control of quantum systems with optical frequency combs, infrared and ultraviolet wide-spectrum precision optical frequency combs, wide-spectrum molecular spectroscopy, remote atmospheric remote sensing using optical frequency comb spectroscopy, etc.)
  • Laser Quantum Coherent Control (high-power fiber lasers, photon remote sensing imaging, multi-photon quantum coherent control, etc.)
  • Hybrid Quantum Networks (single-photon wavelength conversion technology, hybrid quantum networks and entanglement distribution, entanglement between atomic and solid qubits, etc.)

 The team enrolls postgraduate students in the specialized directions of atomic and molecular physics, and precision measurement physics.

 

MEMBERS

 

Professors:

Associate professors:

full-time scientific researchers:

Research assistants:

 

Research Projects:

 

Research Achievements:

 

Recruitment: