Quantum dissociation of a vortex-antivortex pair in a long Josephson junction
Abstract
We report a theoretical analysis and experimental observation of the quantum dynamics of a single vortex-antivortex (VAV) pair confined in a long narrow annular Josephson junction. The switching of the junction from the superconducting state to the resistive state occurs via the dissociation of a pinned VAV pair. The pinning potential is controlled by external magnetic field H and dc bias current I. We predict a specific magnetic field dependence of the oscillatory energy levels of the pinned VAV state and the crossover to a macroscopic quantum tunneling mechanism of VAV dissociation at low temperatures. Our analysis explains the experimentally observed increase of the width of the switching current distribution P(I) with H and the crossover to the quantum regime at the temperature of about 100 mK.
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