Uniaxial-stress-induced ferromagnetism in the itinerant metamagnetic compound UCoAl probed by magnetostriction measurements

Yusei Shimizu; Bernard Salce; Tristan Combier; Dai Aoki; Jacques Flouquet

doi:10.7566/JPSJ.84.023704

Uniaxial-stress-induced ferromagnetism in the itinerant metamagnetic compound UCoAl probed by magnetostriction measurements

Yusei Shimizu, Bernard Salce, Tristan Combier, Dai Aoki, Jacques Flouquet

Materials Processing and Characterization Division

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

12 Citations (Scopus)

Abstract

Magnetostriction measurements for the Ising-type itinerant metamagnetic compound UCoAl were performed under uniaxial stress for σ∥ c-axis using an in situ pressure-tuning device. A ferromagnetic transition was clearly observed at zero magnetic field at least above ∼0.05GPa. For a stress of 0.1 GPa, the FM transition is of 2nd order, since the anomaly of the thermal expansion coefficient does not show any hysteresis at the transition. No step like behavior was observed for the FM transition under uniaxial stress in the present study. From the precise stress dependence of T_C, a change of the power (n) law from 3/4 to 1/2 was also found at around 0.1 GPa for the expression of T_C(σ) α (σ - σ_c)ⁿ, where the critical value is σ_c ∼ 0.026 GPa.

Original language	English
Article number	023704
Journal	journal of the physical society of japan
Volume	84
Issue number	2
DOIs	https://doi.org/10.7566/JPSJ.84.023704
Publication status	Published - 2015 Feb 15

ASJC Scopus subject areas

Physics and Astronomy(all)

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title = "Uniaxial-stress-induced ferromagnetism in the itinerant metamagnetic compound UCoAl probed by magnetostriction measurements",

abstract = "Magnetostriction measurements for the Ising-type itinerant metamagnetic compound UCoAl were performed under uniaxial stress for σ∥ c-axis using an in situ pressure-tuning device. A ferromagnetic transition was clearly observed at zero magnetic field at least above ∼0.05GPa. For a stress of 0.1 GPa, the FM transition is of 2nd order, since the anomaly of the thermal expansion coefficient does not show any hysteresis at the transition. No step like behavior was observed for the FM transition under uniaxial stress in the present study. From the precise stress dependence of TC, a change of the power (n) law from 3/4 to 1/2 was also found at around 0.1 GPa for the expression of TC(σ) α (σ - σc)n, where the critical value is σc ∼ 0.026 GPa.",

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AU - Shimizu, Yusei

AU - Salce, Bernard

AU - Combier, Tristan

AU - Aoki, Dai

AU - Flouquet, Jacques

PY - 2015/2/15

Y1 - 2015/2/15

N2 - Magnetostriction measurements for the Ising-type itinerant metamagnetic compound UCoAl were performed under uniaxial stress for σ∥ c-axis using an in situ pressure-tuning device. A ferromagnetic transition was clearly observed at zero magnetic field at least above ∼0.05GPa. For a stress of 0.1 GPa, the FM transition is of 2nd order, since the anomaly of the thermal expansion coefficient does not show any hysteresis at the transition. No step like behavior was observed for the FM transition under uniaxial stress in the present study. From the precise stress dependence of TC, a change of the power (n) law from 3/4 to 1/2 was also found at around 0.1 GPa for the expression of TC(σ) α (σ - σc)n, where the critical value is σc ∼ 0.026 GPa.

AB - Magnetostriction measurements for the Ising-type itinerant metamagnetic compound UCoAl were performed under uniaxial stress for σ∥ c-axis using an in situ pressure-tuning device. A ferromagnetic transition was clearly observed at zero magnetic field at least above ∼0.05GPa. For a stress of 0.1 GPa, the FM transition is of 2nd order, since the anomaly of the thermal expansion coefficient does not show any hysteresis at the transition. No step like behavior was observed for the FM transition under uniaxial stress in the present study. From the precise stress dependence of TC, a change of the power (n) law from 3/4 to 1/2 was also found at around 0.1 GPa for the expression of TC(σ) α (σ - σc)n, where the critical value is σc ∼ 0.026 GPa.

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Uniaxial-stress-induced ferromagnetism in the itinerant metamagnetic compound UCoAl probed by magnetostriction measurements

Abstract

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