Three-Dimensional Josephson-Junction Arrays in the Quantum Regime

24 January 2000

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

Vol. 84 (4) , 749-752
https://doi.org/10.1103/physrevlett.84.749

Abstract

We study the quantum phase transition properties of a three-dimensional periodic array of Josephson junctions with charging energy that includes both the self and mutual junction capacitances. We use the phase fluctuation algebra between number and phase operators, given by the Euclidean group

E_{2}

, and we effectively map the problem onto a solvable quantum generalization of the spherical model. We obtain a phase diagram as a function of temperature, Josephson coupling, and charging energy. We also analyze the corresponding fluctuation conductivity and its universal scaling form in the vicinity of the zero-temperature quantum critical point.

Keywords

All Related Versions

Version 1, 1999-10-15, ArXiv

This publication has 18 references indexed in Scilit:

Existence of a Bose metal at $T = 0$
Physical Review B, 1999
Superconductor-Insulator Transitions in the Two-Dimensional Limit
Physics Today, 1998
Full capacitance-matrix effects in driven Josephson-junction arrays
Physical Review B, 1998
Nonzero-temperature transport near quantum critical points
Physical Review B, 1997
Coupled 2D-arrays of Josephson junctions
Czechoslovak Journal of Physics, 1996
XY-like critical behavior of the thermodynamic and transport properties of ${YBa}_{2}$ ${Cu}_{3}$ $O_{7 - x}$ in magnetic fields near $T_{c}$
Physical Review B, 1993
Josephson-oscillator spectrum and the reentrant phase transition in granular superconductors
Physical Review B, 1991
Quantum dynamics of the charge in Josephson tunnel junctions
Journal of Low Temperature Physics, 1990
Quantum fluctuations in superconducting arrays
Physical Review B, 1990
Reentrant phase diagram for granular superconductors
Physical Review B, 1985