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Maximizing entanglement in bosonic Josephson junctions using shortcuts to adiabaticity and optimal control (1802.07097v2)

Published 20 Feb 2018 in quant-ph and physics.optics

Abstract: In this article we consider a bosonic Josephson junction, a model system composed by two coupled nonlinear quantum oscillators which can be implemented in various physical contexts, initially prepared in a product of weakly populated coherent states. We quantify the maximum achievable entanglement between the modes of the junction and then use shortcuts to adiabaticity, a method developed to speed up adiabatic quantum dynamics, as well as numerical optimization, to find time-dependent controls (the nonlinearity and the coupling of the junction) which bring the system to a maximally entangled state.