Efficient entanglement generation and detection of generalized stabilizer states

Abstract

The generation and verification of large-scale entanglement are essential to the development of quantum technologies. In this work, we present an efficient scheme to generate genuine multipartite entanglement of a large number of qubits, by using the Heisenberg $XY$ interaction. This method can be conveniently implemented in various physical platforms, including superconducting, trapped-ion, and cold-atom systems. In order to characterize the entanglement of the output quantum state, we generalize the stabilizer formalism and develop an entanglement witness method. In particular, we design a generic searching algorithm to optimize entanglement witness with a minimal number of measurement settings under a given noise level. From the perspective of practical applications, we numerically study the trade-off between the experiment efficiency and detection robustness.