Quantum Synchronization of Quantum Van Der Pol Oscillators with Trapped Ions

Overview

Journal Phys Rev Lett

Publisher American Physical Society

Specialty Biophysics

Date 2014 Jan 31

PMID 24476274

Citations 11

Authors

Tony E Lee

H R Sadeghpour

Affiliations

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Abstract

The van der Pol oscillator is the prototypical self-sustained oscillator and has been used to model nonlinear behavior in biological and other classical processes. We investigate how quantum fluctuations affect phase locking of one or many van der Pol oscillators. We find that phase locking is much more robust in the quantum model than in the equivalent classical model. Trapped-ion experiments are ideally suited to simulate van der Pol oscillators in the quantum regime via sideband heating and cooling of motional modes. We provide realistic experimental parameters for 171Yb+ achievable with current technology.

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