Decoherence in dynamically protected qubits

Bibek Bhandari; D. Dominic Dominic Briseño-Colunga; Irwin Huang; AHMED HAJR; Long Bao Nguyen; Bingcheng Qing; Ke Wang; David I Santiago; Irfan Siddiqi; Justin Dressel; Andrew N Jordan

Decoherence in dynamically protected qubits

ORAL

Abstract

I will present on the decoherence properties of two different yet similar superconducting qubit designs, namely Floquet and Kerr-cat qubits. The two-qubit designs rely on the periodic driving of a non-linear resonator and are celebrated for protection against decoherence through dynamical decoupling. However, their operation and decoherence properties have, in large part, been studied separately. In this presentation, I will discuss the similarities and differences in the decoherence properties as well as the operation of these two-qubit designs.

March 17, 2025, 1:24 PM – March 17, 2025, 1:36 PM

Publication: 1. L. B. Nguyen, Y. Kim, N. Goss, B. Marinelli, B. Bhandari, et al., Nature Physics, 1-7 (2024)<br>2. A. Hajr, B. Qing, K. Wang, G. Koolstra, Z. Pedramrazi, Z. Kang, L. Chen, L. B. Nguyen, C. Junger, N. Goss, I. Huang, B. Bhandari, et al., arXiv:2404.16697 (2024) (PRX accepted)<br>3. B. Bhandari, et al, arXiv:2405.11375 (2024)

Presenters

Bibek Bhandari

Chapman University

Authors

Bibek Bhandari

Chapman University
D. Dominic Dominic Briseño-Colunga

Chapman University
Irwin Huang

University of Rochester
AHMED HAJR

University of California, Berkeley
Long Bao Nguyen

University of California, Berkeley
Bingcheng Qing

University of California, Berkeley
Ke Wang

University of California, Berkeley
David I Santiago

Lawrence Berkeley National Laboratory
Irfan Siddiqi

University of California, Berkeley
Justin Dressel

Chapman University
Andrew N Jordan

Chapman University