Phenomenology of magnetically active superconductors
Dominik Rogula, Ma{\l}gorzata Sztyren
TL;DR
This paper develops a thermodynamical phenomenological framework for magnetically active superconductors and heterostructures, addressing anisotropy and providing exact similarity transformations for various systems.
Contribution
It introduces a comprehensive phenomenological theory for magnetically active superconductors, including anisotropic and layered systems, with exact transformation methods.
Findings
Derived exact anisotropic similarity transformations
Formulated thermodynamical phenomenological models
Applicable to continuum and layered hybrid systems
Abstract
The thermodynamical phenomenological theory of magnetically active superconducting materials and magnetic-superconducting heterostructures is presented. The materials may exhibit arbitrarily strong anisotropy, parametric or structural. Exact anisotropic similarity transformations are found for both the continuum and layered hybrid systems.
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Taxonomy
TopicsPhysics of Superconductivity and Magnetism · Magnetic and transport properties of perovskites and related materials · Rare-earth and actinide compounds