Bichromatic Driving in Floquet Qubits

ORAL

Abstract

We study bichromatically driven single and coupled qubit systems for their application in single and two-qubit Floquet gates. Using the Floquet theory framework, we compare the full numerical calculation of quasienergies with the ones obtained analytically through rotating wave approximation and generalized Van-Vleck perturbation theory. Floquet qubits have been proposed to have dynamically induced high coherence lifetime sweet spots. We extend that argument to the case of bichromatic driving and observe dynamical sweet regions. We apply the bichromatic Floquet theory to superconducting fluxonium architecture to study single and two qubit gates.

* Research was sponsored by the Army Research Office and was accomplished under Grant Number W911NF-23-1-0323. The views and conclusions contained in this document are those of the authors and should not be interpreted as representing the official policies, either expressed or implied, of the Army Research Office or the U.S. Government.

Presenters

  • Bibek Bhandari

    Institute for Quantum Studies, Chapman University, Chapman University

Authors

  • Bibek Bhandari

    Institute for Quantum Studies, Chapman University, Chapman University

  • Debmalya Das

    University of Rochester

  • Long B Nguyen

    Lawrence Berkeley National Laboratory, University of California, Berkeley

  • Yosep Kim

    Korea Institute of Science and Technology

  • David I Santiago

    Lawrence Berkeley National Laboratory

  • Justin G Dressel

    Chapman Univ, Chapman University

  • Irfan Siddiqi

    University of California, Berkeley

  • Andrew N Jordan

    Chapman University