Open AccessCritical behavior at a dynamic vortex insulator-to-metal transition
Author(s) -
Nicola Poccia,
T. I. Baturina,
Francesco Coneri,
C.G. Molenaar,
Xiao Renshaw Wang,
Ginestra Bianconi,
Alexander Brinkman,
H. Hilgenkamp,
A. A. Golubov,
V. M. Vinokur
Publication year - 2015
Publication title -
science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 12.556
H-Index - 1186
eISSN - 1095-9203
pISSN - 0036-8075
DOI - 10.1126/science.1260507
Subject(s) - vortex , condensed matter physics , superconductivity , phase transition , non equilibrium thermodynamics , metal–insulator transition , magnetic field , insulator (electricity) , electric field , physics , materials science , mechanics , electrical resistivity and conductivity , quantum mechanics , optoelectronics
An array of superconducting islands placed on a normal metal film offers a tunable realization of nanopatterned superconductivity. This system enables investigation of the nature of competing vortex states and phase transitions between them. A square array creates the eggcrate potential in which magnetic field-induced vortices are frozen into a vortex insulator. We observed a vortex insulator-vortex metal transition driven by the applied electric current and determined critical exponents that coincided with those for thermodynamic liquid-gas transition. Our findings offer a comprehensive description of dynamic critical behavior and establish a deep connection between equilibrium and nonequilibrium phase transitions.
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