Abstract
Chiral state transfer along closed loops in the vicinity of an exceptional point is one of the many counterintuitive observations in non-Hermitian physics. The application of this property beyond proof-of-principle in quantum physics, is an open question. In this work, we demonstrate chiral state conversion between singlet and triplet Bell states through fully quantum Liouvillian dynamics. Crucially, we demonstrate that this property can be used for the chiral production of Bell states from separable states with a high fidelity and for a large range of parameters. Additionally, we show that the removal of quantum jumps from the dynamics through postselection can result in near-perfect Bell states from initially separable states. Our work presents the first application of chiral state transfer in quantum information processing and demonstrates a novel way to control entangled states by means of dissipation engineering.
Published by the American Physical Society
2024
Funder
Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung
National Centres of Competence in Research SwissMAP
Wallenberg Center for Quantum Technology, Chalmers University of Technology
National Science Foundation
Air Force Office of Scientific Research
Office of Naval Research
Publisher
American Physical Society (APS)