Spin wave measurements over the full Brillouin zone of multiferroic BiFeO 3

Jaehong Jeong; E. A. Goremychkin; T. Guidi; K. Nakajima; Gun Sang Jeon; Shin Ae Kim; S. Furukawa; Yong Baek Kim; Seongsu Lee; V. Kiryukhin; S. W. Cheong; Je Geun Park

doi:10.1103/PhysRevLett.108.077202

Spin wave measurements over the full Brillouin zone of multiferroic BiFeO ₃

Jaehong Jeong, E. A. Goremychkin, T. Guidi, K. Nakajima, Gun Sang Jeon, Shin Ae Kim, S. Furukawa, Yong Baek Kim, Seongsu Lee, V. Kiryukhin, S. W. Cheong, Je Geun Park

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

84 Citations (Scopus)

Abstract

Using the inelastic neutron scattering technique, we measured the spin wave dispersion over the entire Brillouin zone of room temperature multiferroic BiFeO ₃ single crystals with magnetic excitations extending to as high as 72.5meV. The full spin waves can be explained by a simple Heisenberg Hamiltonian with a nearest-neighbor exchange interaction (J=4.38meV), a next-nearest-neighbor exchange interaction (J'=0.15meV), and a Dzyaloshinskii-Moriya-like term (D=0.107meV). This simple Hamiltonian determined, for the first time, for BiFeO ₃ provides a fundamental ingredient for understanding the novel magnetic properties of BiFeO ₃.

Original language	English
Article number	077202
Journal	Physical review letters
Volume	108
Issue number	7
DOIs	https://doi.org/10.1103/PhysRevLett.108.077202
Publication status	Published - 2012 Feb 14
Externally published	Yes

ASJC Scopus subject areas

Physics and Astronomy(all)

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10.1103/PhysRevLett.108.077202

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title = "Spin wave measurements over the full Brillouin zone of multiferroic BiFeO 3 ",

abstract = "Using the inelastic neutron scattering technique, we measured the spin wave dispersion over the entire Brillouin zone of room temperature multiferroic BiFeO 3 single crystals with magnetic excitations extending to as high as 72.5meV. The full spin waves can be explained by a simple Heisenberg Hamiltonian with a nearest-neighbor exchange interaction (J=4.38meV), a next-nearest-neighbor exchange interaction (J'=0.15meV), and a Dzyaloshinskii-Moriya-like term (D=0.107meV). This simple Hamiltonian determined, for the first time, for BiFeO 3 provides a fundamental ingredient for understanding the novel magnetic properties of BiFeO 3.",

author = "Jaehong Jeong and Goremychkin, {E. A.} and T. Guidi and K. Nakajima and Jeon, {Gun Sang} and Kim, {Shin Ae} and S. Furukawa and Kim, {Yong Baek} and Seongsu Lee and V. Kiryukhin and Cheong, {S. W.} and Park, {Je Geun}",

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doi = "10.1103/PhysRevLett.108.077202",

language = "English",

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T1 - Spin wave measurements over the full Brillouin zone of multiferroic BiFeO 3

AU - Jeong, Jaehong

AU - Goremychkin, E. A.

AU - Guidi, T.

AU - Nakajima, K.

AU - Jeon, Gun Sang

AU - Kim, Shin Ae

AU - Furukawa, S.

AU - Kim, Yong Baek

AU - Lee, Seongsu

AU - Kiryukhin, V.

AU - Cheong, S. W.

AU - Park, Je Geun

PY - 2012/2/14

Y1 - 2012/2/14

N2 - Using the inelastic neutron scattering technique, we measured the spin wave dispersion over the entire Brillouin zone of room temperature multiferroic BiFeO 3 single crystals with magnetic excitations extending to as high as 72.5meV. The full spin waves can be explained by a simple Heisenberg Hamiltonian with a nearest-neighbor exchange interaction (J=4.38meV), a next-nearest-neighbor exchange interaction (J'=0.15meV), and a Dzyaloshinskii-Moriya-like term (D=0.107meV). This simple Hamiltonian determined, for the first time, for BiFeO 3 provides a fundamental ingredient for understanding the novel magnetic properties of BiFeO 3.

AB - Using the inelastic neutron scattering technique, we measured the spin wave dispersion over the entire Brillouin zone of room temperature multiferroic BiFeO 3 single crystals with magnetic excitations extending to as high as 72.5meV. The full spin waves can be explained by a simple Heisenberg Hamiltonian with a nearest-neighbor exchange interaction (J=4.38meV), a next-nearest-neighbor exchange interaction (J'=0.15meV), and a Dzyaloshinskii-Moriya-like term (D=0.107meV). This simple Hamiltonian determined, for the first time, for BiFeO 3 provides a fundamental ingredient for understanding the novel magnetic properties of BiFeO 3.

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Spin wave measurements over the full Brillouin zone of multiferroic BiFeO ₃

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