Boson localization and pinning by correlated disorder in high-temperature superconductors

13 April 1992

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 68 (15) , 2398-2401
https://doi.org/10.1103/physrevlett.68.2398

Abstract

The physics of flux lines in the cuprate superconductors pinned by columnar defects is mapped onto boson localization in two dimensions. The theory predicts a Bose glass phase with an infinite tilt modulus and zero linear resistivity, as well as an entangled flux liquid. We describe correlations and transport in these phases, and propose a scaling theory for the irreversibility line which separates them.

Keywords

This publication has 18 references indexed in Scilit:

Vortex confinement by columnar defects in ${YBa}_{2}$ ${Cu}_{3}$ $O_{7}$ crystals: Enhanced pinning at high fields and temperatures
Physical Review Letters, 1991
SQUID picovoltometry of ${YBa}_{2}$ ${Cu}_{3}$ $O_{7}$ single crystals: Evidence for a finite-temperature phase transition in the high-field vortex state
Physical Review Letters, 1991
Thermal fluctuations, quenched disorder, phase transitions, and transport in type-II superconductors
Physical Review B, 1991
Theory of collective flux creep
Physical Review Letters, 1989
Experimental evidence for vortex-glass superconductivity in Y-Ba-Cu-O
Physical Review Letters, 1989
Theory of melted flux liquids
Physical Review B, 1989
Vortex-glass superconductivity: A possible new phase in bulk high- $T_{c}$ oxides
Physical Review Letters, 1989
Frequency dependence of the ac susceptibility in a Y-Ba-Cu-O crystal: A reinterpretation of $H_{c 2}$
Physical Review B, 1988
Vortex Entanglement in High- $T_{c}$ Superconductors
Physical Review Letters, 1988
Pinning in type II superconductors
Journal of Low Temperature Physics, 1979