Stoner gap in the superconducting ferromagnet U Ge2

N. Aso; G. Motoyama; Y. Uwatoko; S. Ban; S. Nakamura; T. Nishioka; Y. Homma; Y. Shiokawa; K. Hirota; N. K. Sato

doi:10.1103/PhysRevB.73.054512

Stoner gap in the superconducting ferromagnet U Ge2

N. Aso, G. Motoyama, Y. Uwatoko, S. Ban, S. Nakamura, T. Nishioka, Y. Homma, Y. Shiokawa, K. Hirota, N. K. Sato

IMR - Materials Processing and Characterization Division

Research output: Contribution to journal › Article › peer-review

22 Citations (Scopus)

Abstract

We report the temperature (T) dependence of ferromagnetic Bragg peak intensities and dc magnetization of the superconducting ferromagnet U Ge2 under pressure (P). We have found that the low- T behavior of the uniform magnetization can be explained by a conventional Stoner model. A functional analysis of the data produces the following results: The ferromagnetic state below a critical pressure can be understood as the perfectly polarized state, in which heavy quasiparticles occupy only majority spin bands. A Stoner gap Δ (P) decreases monotonically with increasing pressure and increases linearly with magnetic field. We show that the present analysis based on the Stoner model is justified by a consistency check, i.e., comparison of density of states at the Fermi energy deduced from the analysis with observed electronic specific heat coefficients. We also argue the influence of the ferromagnetism on the superconductivity.

Original language	English
Article number	054512
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	73
Issue number	5
DOIs	https://doi.org/10.1103/PhysRevB.73.054512
Publication status	Published - 2006

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10.1103/PhysRevB.73.054512

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T1 - Stoner gap in the superconducting ferromagnet U Ge2

AU - Aso, N.

AU - Motoyama, G.

AU - Uwatoko, Y.

AU - Ban, S.

AU - Nakamura, S.

AU - Nishioka, T.

AU - Homma, Y.

AU - Shiokawa, Y.

AU - Hirota, K.

AU - Sato, N. K.

PY - 2006

Y1 - 2006

N2 - We report the temperature (T) dependence of ferromagnetic Bragg peak intensities and dc magnetization of the superconducting ferromagnet U Ge2 under pressure (P). We have found that the low- T behavior of the uniform magnetization can be explained by a conventional Stoner model. A functional analysis of the data produces the following results: The ferromagnetic state below a critical pressure can be understood as the perfectly polarized state, in which heavy quasiparticles occupy only majority spin bands. A Stoner gap Δ (P) decreases monotonically with increasing pressure and increases linearly with magnetic field. We show that the present analysis based on the Stoner model is justified by a consistency check, i.e., comparison of density of states at the Fermi energy deduced from the analysis with observed electronic specific heat coefficients. We also argue the influence of the ferromagnetism on the superconductivity.

AB - We report the temperature (T) dependence of ferromagnetic Bragg peak intensities and dc magnetization of the superconducting ferromagnet U Ge2 under pressure (P). We have found that the low- T behavior of the uniform magnetization can be explained by a conventional Stoner model. A functional analysis of the data produces the following results: The ferromagnetic state below a critical pressure can be understood as the perfectly polarized state, in which heavy quasiparticles occupy only majority spin bands. A Stoner gap Δ (P) decreases monotonically with increasing pressure and increases linearly with magnetic field. We show that the present analysis based on the Stoner model is justified by a consistency check, i.e., comparison of density of states at the Fermi energy deduced from the analysis with observed electronic specific heat coefficients. We also argue the influence of the ferromagnetism on the superconductivity.

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Stoner gap in the superconducting ferromagnet U Ge2

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