High frequency vortex dynamics and magnetoconductivity of high   temperature superconductors

J. Kolacek; E. Kawate

arXiv:cond-mat/9811215·cond-mat.supr-con·October 31, 2009

High frequency vortex dynamics and magnetoconductivity of high temperature superconductors

J. Kolacek, E. Kawate

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TL;DR

This paper develops a new comprehensive theory of vortex dynamics in high-temperature superconductors, linking vortex motion with charge carrier interactions to accurately predict magnetoconductivity.

Contribution

It introduces a novel, self-consistent theoretical framework for vortex dynamics considering multiple interacting subsystems in high-temperature superconductors.

Findings

01

Derived a new equation of motion for vortex and charge carrier subsystems.

02

Calculated magnetoconductivity based on the unified theory.

03

Provided insights into the interplay between superconducting and normal charge carriers.

Abstract

The vortex lattice with the superconducting and normal state charge carriers fractions may be regarded as three independent subsystems mutually connected by interactions. The equation of motion for these three subsystems must be solved simultaneously. In this way a new consistent theory of the vortex dynamics is obtained and the magnetoconductivity calculated.

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