Electronic and structural properties of Fe 3Pd-Pt ferromagnetic shape memory alloys

R. A. Stern; S. D. Willoughby; A. Ramirez; J. M. MacLaren; J. Cui; Q. Pan; R. D. James

doi:10.1063/1.1449443

Electronic and structural properties of Fe ₃Pd-Pt ferromagnetic shape memory alloys

R. A. Stern, S. D. Willoughby, A. Ramirez, J. M. MacLaren, J. Cui, Q. Pan, R. D. James

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Abstract

Ferromagnetic shape memory (FSM) alloys are scientifically and technologically interesting materials that combine ferromagnetism with a reversible martensitic phase transformation. Fe ₇₀Pd ₃₀ has recently been shown to display a FSM effect at usable temperatures and low fields. Reported here are results of experimental studies on Fe ₇₀Pd ₃₀ and electronic structure calculations on Fe ₇₀Pd _30-xPt _x. The calculations show that additions of Pt by 6 at% to Fe ₇₀Pd ₃₀ can triple the magnetocrystalline anisotropy. There is, however, a large discrepancy between the measured and calculated anisotropy values of Fe ₇₀Pd ₃₀, suggesting the presence of significant disorder in the measured samples. Other calculated structural and magnetic properties are in close agreement with experimental values.

Original language	English (US)
Pages (from-to)	7818-7820
Number of pages	3
Journal	Journal of Applied Physics
Volume	91
Issue number	10 I
DOIs	https://doi.org/10.1063/1.1449443
State	Published - May 15 2002
Externally published	Yes

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title = "Electronic and structural properties of Fe 3Pd-Pt ferromagnetic shape memory alloys",

abstract = "Ferromagnetic shape memory (FSM) alloys are scientifically and technologically interesting materials that combine ferromagnetism with a reversible martensitic phase transformation. Fe 70Pd 30 has recently been shown to display a FSM effect at usable temperatures and low fields. Reported here are results of experimental studies on Fe 70Pd 30 and electronic structure calculations on Fe 70Pd 30-xPt x. The calculations show that additions of Pt by 6 at% to Fe 70Pd 30 can triple the magnetocrystalline anisotropy. There is, however, a large discrepancy between the measured and calculated anisotropy values of Fe 70Pd 30, suggesting the presence of significant disorder in the measured samples. Other calculated structural and magnetic properties are in close agreement with experimental values.",

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AU - Stern, R. A.

AU - Willoughby, S. D.

AU - Ramirez, A.

AU - MacLaren, J. M.

AU - Cui, J.

AU - Pan, Q.

AU - James, R. D.

PY - 2002/5/15

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AB - Ferromagnetic shape memory (FSM) alloys are scientifically and technologically interesting materials that combine ferromagnetism with a reversible martensitic phase transformation. Fe 70Pd 30 has recently been shown to display a FSM effect at usable temperatures and low fields. Reported here are results of experimental studies on Fe 70Pd 30 and electronic structure calculations on Fe 70Pd 30-xPt x. The calculations show that additions of Pt by 6 at% to Fe 70Pd 30 can triple the magnetocrystalline anisotropy. There is, however, a large discrepancy between the measured and calculated anisotropy values of Fe 70Pd 30, suggesting the presence of significant disorder in the measured samples. Other calculated structural and magnetic properties are in close agreement with experimental values.

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Electronic and structural properties of Fe ₃Pd-Pt ferromagnetic shape memory alloys

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