Quantum simulation of three-body interactions in weakly driven quantum   systems

Francesco Petiziol; Mahdi Sameti; Stefano Carretta; Sandro Wimberger,; Florian Mintert

arXiv:2011.03399·quant-ph·June 25, 2021

Quantum simulation of three-body interactions in weakly driven quantum systems

Francesco Petiziol, Mahdi Sameti, Stefano Carretta, Sandro Wimberger,, Florian Mintert

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TL;DR

This paper demonstrates a method to accurately realize three-body interactions in quantum systems, advancing quantum simulation capabilities for complex many-body physics.

Contribution

It introduces a novel approach to implement purely three-body Hamiltonians beyond perturbative Floquet engineering in superconducting circuits and nanomagnets.

Findings

01

Achieved highly accurate three-body Hamiltonian realization.

02

Overcame limitations of perturbative Floquet engineering.

03

Enabled simulation of complex topological and quantum computation models.

Abstract

The realization of effective Hamiltonians featuring many-body interactions beyond pairwise coupling would enable the quantum simulation of central models underpinning topological physics and quantum computation. We overcome crucial limitations of perturbative Floquet engineering and discuss the highly accurate realization of a purely three-body Hamiltonian in superconducting circuits and molecular nanomagnets.

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