Research Directions: 

The fundamental study of quantum mechanic physics in low-dimensional semiconductor structures and developing electronic, spintronics, and photonics devices towards quantum communications, quantum computing, and ultra-sensitive measurements.

Research Directions:

Quantum electron devices, quantum opto-electronic devices,Single-photon source and detection. Research Areas:

(1)  Quantum mechanic physics in low-dimensional semiconductor structures, such as silicon qubit materials and devices, semiconductor spin electronics, micro-nano devices, solid-state quantum light sources including single and entangled photons, single-photon detection. 

(2) Semiconductor photoelectric effect devices, including on-chip integrated quantum devices such as quantum repeater, optomechanics devices, quantum memory, full wave band quantum light sources, AI chips, quantum radar chips, solid-state quantum circuits, single-photon amplifiers which can work at radio, microwave, THz, and light frequency range, silicon-based on-chip light source, quantum transducer between photon and electron spin, light signal amplifier, optical modulator, optical waveguide.

Quantum Photonics Group

Semiconductor Quantum Light Source and Detection Device Group