Quantum Process Classification Assisted by Quantum Fluctuation Theorem

Kenji Maeda; Takuya Isogawa; Santiago Hernández Gómez; Paola Cappellaro; Sebastian Deffner; Akira Sone

Quantum Process Classification Assisted by Quantum Fluctuation Theorem

POSTER

Abstract

Quantum channel classification is an important task for understanding the dynamics of quantum systems and designing robust quantum information processing protocols. In this study, we propose a quantum circuit that utilizes the quantum fluctuation theorem to facilitate quantum channel classification. Additionally, we outline an experimental protocol to verify our methods on the nitrogen-vacancy (NV) center platform.

^*A.S. and P. C. acknowledge U.S. NSF under Grant No. MPS-2328774. A.S. also acknowledges PHY-2425180 and Cooperative Agreement PHY-2019786. K.M. is supported by the Goldwater scholarship. S.D. acknowledges the John Templeton Foundation under Grant No. 62422.

Presenters

Kenji Maeda
- University of Massachusetts Boston

Authors

Kenji Maeda
- University of Massachusetts Boston
Takuya Isogawa
- Massachusetts Institute of Technology
Santiago Hernández Gómez
- Massachusetts Institute of Technology; European Laboratory for Non-linear Spectroscopy (LENS); University of Florence
Paola Cappellaro
- Massachusetts Institute of Technology
Sebastian Deffner
- University of Maryland Baltimore County
Akira Sone
- University of Massachusetts Boston
- University of Massachusetts Boston; The NSF AI Institute for Artificial Intelligence and Fundamental Interactions