Ab initio calculations of Hc2 in type-II superconductors: Basic formalism and model calculations
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概要
- 論文の詳細を見る
Detailed Fermi-surface structures are essential to describe the upper critical field Hc2 in type-II superconductors, as first noticed by and Hohenberg and Werthamer [Phys. Rev. 153, 493 (1967)] and shown explicitly by Butler for high-purity cubic Niobium [Phys. Rev. Lett. 44, 1516 (1980)]. We derive an Hc2 equation for classic type-II superconductors that is applicable to systems with anisotropic Fermi surfaces and/or energy gaps under arbitrary field directions. It can be solved efficiently by using Fermi surfaces from ab initio electronic-structure calculations. Thus, it is expected to enhance our quantitative understanding on Hc2. Based on the formalism, we calculate Hc2 curves for Fermi surfaces of a three-dimensional tight-binding model with cubic symmetry, an isotropic gap, and no impurity scatterings. It is found that, as the Fermi surface approaches to the Brillouin zone boundary, the reduced critical field h*(T/Tc), which is normalized by the initial slope at Tc, is enhanced significantly over the curve for the spherical Fermi surface with a marked upward curvature. Thus, the Fermi-surface anisotropy can be a main source of the upward curvature in Hc2 near Tc.
- American Physical Societyの論文
著者
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Arai M
National Institute For Materials Science
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Arai M
Department Of Applied Physics University Of Tokyo
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Arai Masao
National Institute For Research In Inorganic Materials
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Arai M
Computational Materials Science Center (cmsc) National Institute Of Materials Science (nims)
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Arai M
Univ. Tokyo Tokyo Jpn
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Arai Masao
Computational Materials Science Center National Institute For Materials Science
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