Evidence for an electric-dipole active continuum band of spin excitations in multiferroic TbMnO3

Y. Takahashi; N. Kida; Y. Yamasaki; J. Fujioka; T. Arima; R. Shimano; S. Miyahara; M. Mochizuki; N. Furukawa; Y. Tokura

doi:10.1103/PhysRevLett.101.187201

Evidence for an electric-dipole active continuum band of spin excitations in multiferroic TbMnO3

Y. Takahashi^*, N. Kida, Y. Yamasaki, J. Fujioka, T. Arima, R. Shimano, S. Miyahara, M. Mochizuki, N. Furukawa, Y. Tokura

^*Corresponding author for this work

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

77 Citations (Scopus)

Abstract

The wide range optical spectra on a multiferroic prototype TbMnO3 have been investigated to clarify the origin of spin excitations observed in the far-infrared region. We elucidate the full band structure, whose high energy edge (133cm-1) exactly corresponds to twice of the highest-lying magnon energy. Thus the origin of this absorption band is clearly assigned to two-magnon excitation driven by the electric field of light. There is an overlap between the two-magnon and phonon energy ranges, where the strong coupling between them is manifested by the frequency shift and transfer of oscillator strength of the phonon mode.

Original language	English
Article number	187201
Journal	Physical Review Letters
Volume	101
Issue number	18
DOIs	https://doi.org/10.1103/PhysRevLett.101.187201
Publication status	Published - 2008 Oct 27
Externally published	Yes

ASJC Scopus subject areas

Physics and Astronomy(all)

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10.1103/PhysRevLett.101.187201

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title = "Evidence for an electric-dipole active continuum band of spin excitations in multiferroic TbMnO3",

abstract = "The wide range optical spectra on a multiferroic prototype TbMnO3 have been investigated to clarify the origin of spin excitations observed in the far-infrared region. We elucidate the full band structure, whose high energy edge (133cm-1) exactly corresponds to twice of the highest-lying magnon energy. Thus the origin of this absorption band is clearly assigned to two-magnon excitation driven by the electric field of light. There is an overlap between the two-magnon and phonon energy ranges, where the strong coupling between them is manifested by the frequency shift and transfer of oscillator strength of the phonon mode.",

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T1 - Evidence for an electric-dipole active continuum band of spin excitations in multiferroic TbMnO3

AU - Takahashi, Y.

AU - Kida, N.

AU - Yamasaki, Y.

AU - Fujioka, J.

AU - Arima, T.

AU - Shimano, R.

AU - Miyahara, S.

AU - Mochizuki, M.

AU - Furukawa, N.

AU - Tokura, Y.

PY - 2008/10/27

Y1 - 2008/10/27

N2 - The wide range optical spectra on a multiferroic prototype TbMnO3 have been investigated to clarify the origin of spin excitations observed in the far-infrared region. We elucidate the full band structure, whose high energy edge (133cm-1) exactly corresponds to twice of the highest-lying magnon energy. Thus the origin of this absorption band is clearly assigned to two-magnon excitation driven by the electric field of light. There is an overlap between the two-magnon and phonon energy ranges, where the strong coupling between them is manifested by the frequency shift and transfer of oscillator strength of the phonon mode.

AB - The wide range optical spectra on a multiferroic prototype TbMnO3 have been investigated to clarify the origin of spin excitations observed in the far-infrared region. We elucidate the full band structure, whose high energy edge (133cm-1) exactly corresponds to twice of the highest-lying magnon energy. Thus the origin of this absorption band is clearly assigned to two-magnon excitation driven by the electric field of light. There is an overlap between the two-magnon and phonon energy ranges, where the strong coupling between them is manifested by the frequency shift and transfer of oscillator strength of the phonon mode.

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Evidence for an electric-dipole active continuum band of spin excitations in multiferroic TbMnO3

Abstract

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