Non-conventional Superconductors and Percolation

Xuan Zhong Ni; M. H. Jiang

arXiv:1101.3608·cond-mat.supr-con·January 20, 2011

Non-conventional Superconductors and Percolation

Xuan Zhong Ni, M. H. Jiang

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TL;DR

This paper proposes a new theoretical framework for non-conventional superconductors, modeling them as 2D lattices of super-cells with superconductivity arising from electron hopping and phase transitions in percolation networks.

Contribution

It introduces a novel percolation-based model for understanding the mechanics of non-conventional superconductivity, emphasizing lattice structure and phase transitions.

Findings

01

Superconductivity in non-conventional materials can be explained by percolation theory.

02

Electron hopping along lattice edges is key to the superconducting mechanism.

03

Phase transitions in percolation networks correlate with superconducting states.

Abstract

This paper presents a novel theory for understanding the mechanics behind non-conventional superconductors. It presents the hypothesis that non-conventional superconductors are 2D lattices of super-cells and that the superconductivity mechanism involves the ordered hopping of itinerant electrons along with phase transitions in the edge percolations.

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Taxonomy

TopicsPhysics of Superconductivity and Magnetism · Theoretical and Computational Physics