J. Liu scite author profile

We have performed Raman measurements on TbMnO3 single crystal under magnetic field along the three crystallographic directions. The flip of the spin spiral plane creates an electromagnon excitation. In addition to the electromagnons induced by the Heisenberg coupling, we have detected the electromagnon created by the Dzyaloshinskii-Moriya interaction along the c axis. We have identified all the vibrational modes of TbMnO3. Their temperature dependences show that only one phonon observed along the polarization axis is sensitive to the ferroelectric transition. This mode is tied to the Tb 3+ ion displacements that contribute to the ferroelectric polarization.

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Lattice and spin excitations in multiferroich-YbMnO3

Liu

Toulouse

Rovillain

et al. 2012

Phys. Rev. B

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Role of the rare earth in lattice and magnetic coupling in multiferroic h−HoMnO3

et al. 2017

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We used Raman scattering to study the lattice and magnetic excitations in the hexagonal HoMnO3 single crystals. The E2 phonon mode at 237 cm −1 is affected by the magnetic order. This mode is related to the displacement of Mn and O ions in a-b plane and modulates the Mn-O-Mn bond angles in a-b plane and the in-plane Mn-Mn superexchange interaction. The mode at 269 cm −1 associated to the displacement of the apical Ho 3+ ions along the c direction presents an abrupt change of slope at TN showing that the role of the rare earth ions can not be neglected in the magnetic transition. We have identified magnon and crystal field excitations. The temperature dependence of the magnetic excitations has been compared to the Mn and Ho moment and indicates that the exchange interaction pattern between Mn and Ho atoms drives the uniaxial anisotropy gap above the Mn-spin-rotation transition.

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J. Liu

Electromagnon and phonon excitations in multiferroic TbMnO3

Lattice and spin excitations in multiferroich-YbMnO3

Role of the rare earth in lattice and magnetic coupling in multiferroic h−HoMnO3

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