Dissipation encodes the interaction of a quantum system with the environment and regulates the activation regimes of a Brownian particle. We have engineered grain boundary biepitaxial YBaCuO junctions to drive a direct transition from a quantum activated running state to a phase diffusion regime. The crossover to the quantum regime is tuned by the magnetic field and dissipation is described by a fully consistent set of junction parameters. To unravel phase dynamics in moderately damped systems is of general interest for advances in the comprehension of retrapping phenomena and in view of quantum hybrid technology.
Direct Transition from Quantum Escape to a Phase Diffusion Regime in YBaCuO Biepitaxial Josephson Junctions / L., Longobardi; Massarotti, Davide; Stornaiuolo, Daniela; Galletti, Luca; G., Rotoli; F., Lombardi; Tafuri, Francesco. - In: PHYSICAL REVIEW LETTERS. - ISSN 0031-9007. - 109:050601(2012), pp. 050601-1-050601-5. [10.1103/PhysRevLett.109.050601]
Direct Transition from Quantum Escape to a Phase Diffusion Regime in YBaCuO Biepitaxial Josephson Junctions
MASSAROTTI, DAVIDE;STORNAIUOLO, DANIELA;GALLETTI, LUCA;Tafuri, Francesco
2012
Abstract
Dissipation encodes the interaction of a quantum system with the environment and regulates the activation regimes of a Brownian particle. We have engineered grain boundary biepitaxial YBaCuO junctions to drive a direct transition from a quantum activated running state to a phase diffusion regime. The crossover to the quantum regime is tuned by the magnetic field and dissipation is described by a fully consistent set of junction parameters. To unravel phase dynamics in moderately damped systems is of general interest for advances in the comprehension of retrapping phenomena and in view of quantum hybrid technology.| File | Dimensione | Formato | |
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