Recently, the Quantum Cloud group of BAQIS and the Institute of Physics, Chinese Academy of Sciences, realized an analogue lattice black hole model for the first time on a superconducting quantum chip with tunable couplers, and observed analogue Hawking radiation and the related entanglement dynamics.

Recently, new progress has been made in high-dimensional quantum computation by the superconducting quantum computation team​ of Beijing Academy of Quantum Information Sciences and Professor You Li’s team from the Department of Physics at Tsinghua University. The feasibility of a multi-level system based on a superconducting transmon as a quantum computing unit has been experimentally verified.

Quantum Cloud Group of BAQIS and the Institute of Physics, Chinese Academy of Sciences, used a superconducting quantum chip with 10 bits and 9 couplers arranged in one dimension to realize the promotion of the Aubry-André-Harper (GAAH) model for the first time. The different kinetic properties of the three phases and the phase transitions between them were observed at the multi-particle dynamics level.

Recently, Hongqi Xu's group from BAQIS and Peking University, in collaboration with Jian-Jun Zhang's group from the Institute of Physics of the Chinese Academy of Sciences, have reported the growth of a new layered material, spiral antimonene, using molecular beam epitaxy.