Fusheng Chen

TL;DR: Zuchongzhi as mentioned in this paper is a two-dimensional programmable superconducting quantum processor, which is composed of 66 functional qubits in a tunable coupling architecture, and performs random quantum circuits sampling for benchmarking.

TL;DR: The preparation and verification of a genuine 12-qubit entanglement in a superconducting processor and the entangling circuit to generate linear cluster states is depth invariant in the number of qubits and uses single- and double- qubit gates instead of collective interactions.

TL;DR: In this article, an 8-by-8 two-dimensional square superconducting qubit array composed of 62 functional qubits was used to demonstrate high-fidelity single and two-particle quantum walks.

TL;DR: Zuchongzhi 2.1 as mentioned in this paper has 66 qubits in a two-dimensional array in a tunable coupler architecture, and the readout fidelity is improved to an average of 97.74%.

TL;DR: In this paper, a ladder-type superconducting quantum processor was used to perform analog quantum simulations of both the $XX$ ladder and one-dimensional (1D) $xx$ model.