Observing nonlinear spin squeezing and entanglement of non-Gaussian states with interconnected superconducting qubits

Yu-Ran Zhang; Kai Xu; Zheng-Hang Sun; Franco Nori; Haohua Wang; Heng Fan

Observing nonlinear spin squeezing and entanglement of non-Gaussian states with interconnected superconducting qubits

ORAL

Abstract

Multipartite entanglement, witnessed by spin squeezing and Fisher information, is significant for both quantum information and quantum metrology. Using 20 interconnected superconducting qubits, we measure the nonlinear squeezing parameter, as a generalization of the Ramsey squeezing parameter with nonlinear observables, and identify the metrological enhancement of non-Gaussian states. By extracting the Fisher information, we observe a maximum metrological gain of 10.07 dB using 20 qubits. Merging different concepts of entanglement witnesses, our experiments characterize different classes of complicated many-body entangled states using superconducting qubits. Benefiting from high-fidelity full controls and addressable single-shot readouts, the superconducting processor with interconnected qubits is promising for improving the performance of quantum metrology and realizing other complex spin-squeezing algorithms.

^*This work was supported by the JSPS, NSFC, NTT, JST, ARO, AFOSR, AOARD, and FQXi.

March 15, 2021, 3:12 PM – March 15, 2021, 3:24 PM

Presenters

Yu-Ran Zhang
- RIKEN, Japan

Authors

Yu-Ran Zhang
- RIKEN, Japan
Kai Xu
- IOP, CAS, China
Zheng-Hang Sun
- IOP, CAS, China
Franco Nori
- RIKEN, Japan and Univ. Michigan, USA
- RIKEN, Japan
- RIKEN; and Univ. Michigan.
- RIKEN, Japan; and Univ. Michigan, USA
- Riken Japan and Univ. Michigan USA
- RIKEN, Japan and Univ Michigan, USA
- Theoretical Quantum Physics Laboratory, Department of Physics, RIKEN Cluster for Pioneering Research, The University of Michigan
- RIKEN and Univ. of Michigan
- Riken Japan and Univ Michigan USA
- RIKEN; and University of Michigan
- RIKEN and Univ. Michigan
- RIKEN and Univ of Michigan
- Theoretical Quantum Physics Laboratory, RIKEN Cluster for Pioneering Research, Wako-shi, Saitama 351-0198, Japan
- RIKEN, and University of Michigan
- Theoretical Quantum Physics, Riken, Japan
- RIKEN, Japan; and Univ Michigan, USA
- Theoretical Quantum Physics Laboratory, RIKEN
- RIKEN, Japan; Univ. Michigan, USA
- RIKEN, Japan; Uni. Michigan, USA
Haohua Wang
- Zhejiang Univ, China
- Zhejiang University
Heng Fan
- IOP, CAS, China