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Title: Vortex pair production and decay of a two-dimensional supercurrent by a quantum-field-theory approach

Journal Article · · Physical Review, B: Condensed Matter
 [1];  [2]
  1. International School for Advanced Studies-SISSA, Via Beirut 4, 34014 Trieste (Italy)
  2. INFM and Istituto di Scienze Matematiche, Fisiche e Chimiche, Universita di Milano a Como, Via Lucini 3, 22100 Como (Italy)
+ Show Author Affiliations

We investigate the phenomenon of the decay of a supercurrent through homogeneous nucleation of vortex-antivortex pairs in a two-dimensional (2D) like superconductor or superfluid by means of a quantum electrodynamic formulation for the decay of the 2D vacuum. The case in which both externally driven current and Magnus force are present is treated exactly, taking the vortex activation energy and its inertial mass as independent parameters. Quantum dissipation is included through the formulation introduced by Caldeira and Leggett. The most relevant consequence of quantum dissipation is the elimination of the threshold for vortex production due to the Magnus force. In the dissipation-dominated case, corresponding formally to the limit of zero intertial mass, an exact formula for the pair production rate is given. If however the inertial mass is strictly zero we find that vortex production is inhibited by a quantum effect related to the Magnus force. The possibility of including vortex pinning is investigated by means of an effective harmonic potential. While an additional term in the vortex activation energy can account for the effect of a finite barrier in the direction perpendicular to the current, pinning along the current depresses the role of the Magnus force in the dissipation-dominated dynamics, except for the above-mentioned quantum effect. A possible description of vortex nucleation due to the combined effects of temperature and externally driven currents is also presented along with an evaluation of the resulting voltage drop.

OSTI ID:
115863
Journal Information:
Physical Review, B: Condensed Matter, Vol. 52, Issue 10; Other Information: PBD: 1 Sep 1995
Country of Publication:
United States
Language:
English

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Related Subjects

66 PHYSICS
SUPERCONDUCTIVITY
VORTICES
SUPERFLUIDITY
DECAY
PAIR PRODUCTION
TWO-DIMENSIONAL CALCULATIONS
QUANTUM ELECTRODYNAMICS
DISSIPATION FACTOR
TEMPERATURE DEPENDENCE