Spin waves throughout the Brillouin zone and magnetic exchange coupling in the ferromagnetic metallic manganites La1-x Cax Mn O3 (x=0.25,0.30)

F. Ye; Pengcheng Dai; J. A. Fernandez-Baca; D. T. Adroja; T. G. Perring; Y. Tomioka; Y. Tokura

doi:10.1103/PhysRevB.75.144408

Spin waves throughout the Brillouin zone and magnetic exchange coupling in the ferromagnetic metallic manganites La1-x Cax Mn O3 (x=0.25,0.30)

F. Ye
, Pengcheng Dai
, J. A. Fernandez-Baca
, D. T. Adroja
, T. G. Perring
, Y. Tomioka
, Y. Tokura

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

35 Scopus citations

Abstract

Using time-of-flight and triple-axis inelastic neutron spectroscopy, we determine spin-wave excitations throughout the Brillouin zone for ferromagnetic manganites La1-x Cax Mn O3 (x=0.25,0.3) in their low-temperature metallic states. While spin-wave excitations in the long-wavelength limit (spin stiffness D) have similar values for both compounds, the excitations near the Brillouin-zone boundary of La0.7 Ca0.3 Mn O3 are considerably softened in all symmetry directions compared to that of La0.75 Ca0.25 Mn O3. A Heisenberg model with the nearest neighbor and the fourth neighbor exchange interactions can describe the overall dispersion curves fairly well. We compare the data with various theoretical models describing the spin excitations of ferromagnetic manganites.

Original language	English
Article number	144408
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	75
Issue number	14
DOIs	https://doi.org/10.1103/PhysRevB.75.144408
State	Published - Apr 6 2007

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Ye, F., Dai, P., Fernandez-Baca, J. A., Adroja, D. T., Perring, T. G., Tomioka, Y., & Tokura, Y. (2007). Spin waves throughout the Brillouin zone and magnetic exchange coupling in the ferromagnetic metallic manganites La1-x Cax Mn O3 (x=0.25,0.30). Physical Review B - Condensed Matter and Materials Physics, 75(14), Article 144408. https://doi.org/10.1103/PhysRevB.75.144408

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abstract = "Using time-of-flight and triple-axis inelastic neutron spectroscopy, we determine spin-wave excitations throughout the Brillouin zone for ferromagnetic manganites La1-x Cax Mn O3 (x=0.25,0.3) in their low-temperature metallic states. While spin-wave excitations in the long-wavelength limit (spin stiffness D) have similar values for both compounds, the excitations near the Brillouin-zone boundary of La0.7 Ca0.3 Mn O3 are considerably softened in all symmetry directions compared to that of La0.75 Ca0.25 Mn O3. A Heisenberg model with the nearest neighbor and the fourth neighbor exchange interactions can describe the overall dispersion curves fairly well. We compare the data with various theoretical models describing the spin excitations of ferromagnetic manganites.",

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AU - Ye, F.

AU - Dai, Pengcheng

AU - Fernandez-Baca, J. A.

AU - Adroja, D. T.

AU - Perring, T. G.

AU - Tomioka, Y.

AU - Tokura, Y.

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N2 - Using time-of-flight and triple-axis inelastic neutron spectroscopy, we determine spin-wave excitations throughout the Brillouin zone for ferromagnetic manganites La1-x Cax Mn O3 (x=0.25,0.3) in their low-temperature metallic states. While spin-wave excitations in the long-wavelength limit (spin stiffness D) have similar values for both compounds, the excitations near the Brillouin-zone boundary of La0.7 Ca0.3 Mn O3 are considerably softened in all symmetry directions compared to that of La0.75 Ca0.25 Mn O3. A Heisenberg model with the nearest neighbor and the fourth neighbor exchange interactions can describe the overall dispersion curves fairly well. We compare the data with various theoretical models describing the spin excitations of ferromagnetic manganites.

AB - Using time-of-flight and triple-axis inelastic neutron spectroscopy, we determine spin-wave excitations throughout the Brillouin zone for ferromagnetic manganites La1-x Cax Mn O3 (x=0.25,0.3) in their low-temperature metallic states. While spin-wave excitations in the long-wavelength limit (spin stiffness D) have similar values for both compounds, the excitations near the Brillouin-zone boundary of La0.7 Ca0.3 Mn O3 are considerably softened in all symmetry directions compared to that of La0.75 Ca0.25 Mn O3. A Heisenberg model with the nearest neighbor and the fourth neighbor exchange interactions can describe the overall dispersion curves fairly well. We compare the data with various theoretical models describing the spin excitations of ferromagnetic manganites.

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Spin waves throughout the Brillouin zone and magnetic exchange coupling in the ferromagnetic metallic manganites La1-x Cax Mn O3 (x=0.25,0.30)

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