Time-reversibility in Quantum Feedback Protocols

Jonathan Monroe; Mahdi Naghiloo; Kater Murch; Sreenath Kizhakkumpurath Manikandan; Andrew Jordan

Time-reversibility in Quantum Feedback Protocols

ORAL

Abstract

In open quantum systems, measurements by a probe or the environment cause backaction. While these interactions do not necessarily break time-reversal symmetry, a statistical arrow of time emerges due to the correlations between the quantum state and the measurement. Quantum feedback protocols utilize rotations to correct for quantum backaction, effectively closing the system evolution. We study time reversibility of state stabilization by examining the effectiveness of time-reversed versus time-ordered feedback protocols. We also investigate the effect of finite efficiency detection in these state stabilization protocols.

March 7, 2018, 1:12 PM – March 7, 2018, 1:24 PM

Presenters

Jonathan Monroe

Physics, Washington University in St. Louis

Authors

Jonathan Monroe

Physics, Washington University in St. Louis
Mahdi Naghiloo

Physics, Washington University in St. Louis
Kater Murch

Physics, Washington University in St. Louis, Washington University in St. Louis, Univ of California - Berkeley
Sreenath Kizhakkumpurath Manikandan

Department of physics and astronomy, Univ of Rochester, Physics and Astronomy, University of Roshester
Andrew Jordan

University of Rochester, Department of Physics and Astronomy, Univ of Rochester, Department of Physics and Astromony, University of Rochester, Univ of Rochester, Department of physics and astronomy, Univ of Rochester, Physics and Astronomy, University of Roshester, Physics, Univ of Rochester