Propagation of defects in doped magnetic materials of different dimensionality

A. Furrer; A. Podlesnyak; K. W. Krämer; J. P. Embs; V. Pomjakushin; Th Strässle

doi:10.1103/PhysRevB.89.144402

Propagation of defects in doped magnetic materials of different dimensionality

A. Furrer
, A. Podlesnyak
, K. W. Krämer
, J. P. Embs
, V. Pomjakushin
, Th Strässle

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

4 Scopus citations

Abstract

Defects intentionally introduced into magnetic materials often have a profound effect on the physical properties. Specifically tailored neutron spectroscopic experiments can provide detailed information on both the local exchange interactions and the local distances between the magnetic atoms around the defects. This is demonstrated for manganese dimer excitations observed for the magnetically diluted three- and two-dimensional compounds KMnxZn1-xF3 and K2MnxZn1-xF4, respectively. The resulting local exchange interactions deviate up to 10% from the average, and the local Mn-Mn distances are found to vary stepwise with increasing internal pressure due to the Mn/Zn substitution. Our analysis qualitatively supports the theoretically predicted decay of atomic displacements according to 1/r2, 1/r, and constant (for three-, two-, and one-dimensional compounds, respectively) where r denotes the distance of the displaced atoms from the defect.

Original language	English
Article number	144402
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	89
Issue number	14
DOIs	https://doi.org/10.1103/PhysRevB.89.144402
State	Published - Apr 1 2014

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title = "Propagation of defects in doped magnetic materials of different dimensionality",

abstract = "Defects intentionally introduced into magnetic materials often have a profound effect on the physical properties. Specifically tailored neutron spectroscopic experiments can provide detailed information on both the local exchange interactions and the local distances between the magnetic atoms around the defects. This is demonstrated for manganese dimer excitations observed for the magnetically diluted three- and two-dimensional compounds KMnxZn1-xF3 and K2MnxZn1-xF4, respectively. The resulting local exchange interactions deviate up to 10\% from the average, and the local Mn-Mn distances are found to vary stepwise with increasing internal pressure due to the Mn/Zn substitution. Our analysis qualitatively supports the theoretically predicted decay of atomic displacements according to 1/r2, 1/r, and constant (for three-, two-, and one-dimensional compounds, respectively) where r denotes the distance of the displaced atoms from the defect.",

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T1 - Propagation of defects in doped magnetic materials of different dimensionality

AU - Furrer, A.

AU - Podlesnyak, A.

AU - Krämer, K. W.

AU - Embs, J. P.

AU - Pomjakushin, V.

AU - Strässle, Th

PY - 2014/4/1

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N2 - Defects intentionally introduced into magnetic materials often have a profound effect on the physical properties. Specifically tailored neutron spectroscopic experiments can provide detailed information on both the local exchange interactions and the local distances between the magnetic atoms around the defects. This is demonstrated for manganese dimer excitations observed for the magnetically diluted three- and two-dimensional compounds KMnxZn1-xF3 and K2MnxZn1-xF4, respectively. The resulting local exchange interactions deviate up to 10% from the average, and the local Mn-Mn distances are found to vary stepwise with increasing internal pressure due to the Mn/Zn substitution. Our analysis qualitatively supports the theoretically predicted decay of atomic displacements according to 1/r2, 1/r, and constant (for three-, two-, and one-dimensional compounds, respectively) where r denotes the distance of the displaced atoms from the defect.

AB - Defects intentionally introduced into magnetic materials often have a profound effect on the physical properties. Specifically tailored neutron spectroscopic experiments can provide detailed information on both the local exchange interactions and the local distances between the magnetic atoms around the defects. This is demonstrated for manganese dimer excitations observed for the magnetically diluted three- and two-dimensional compounds KMnxZn1-xF3 and K2MnxZn1-xF4, respectively. The resulting local exchange interactions deviate up to 10% from the average, and the local Mn-Mn distances are found to vary stepwise with increasing internal pressure due to the Mn/Zn substitution. Our analysis qualitatively supports the theoretically predicted decay of atomic displacements according to 1/r2, 1/r, and constant (for three-, two-, and one-dimensional compounds, respectively) where r denotes the distance of the displaced atoms from the defect.

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Propagation of defects in doped magnetic materials of different dimensionality

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