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Terahertz spectroscopy of electromagnons in Multiferroics

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Presentation on theme: "Terahertz spectroscopy of electromagnons in Multiferroics"— Presentation transcript:

1 Terahertz spectroscopy of electromagnons in Multiferroics
Ashida lab. Saito Tadtaka

2 Contents Introduction Experiment Results Summary
---Multiferroic materials ---The mechanism of Electromagnon’s excitation Experiment ---Experimental set up ---Sample Results Summary

3 Introduction ---Multiferroic materials
Multiferroics Multiferroics are materials where ferroelectricity and ferromagnetism are inherently coupled. E H P M Magnet Electric effect (ME effect) The magnetization can be controlled by electric field of light. The polarization can be controlled by magnetic.

4 Magnet Electric effect
Introduction ---Multiferroic materials Magnet Electric effect Antisymmetry Dzyaloshinskii-Moriya interaction Spiral-spin-order らせんスピン磁性 c Ptotal //c b a bc-spiral

5 Electromagnon Magnon Spin wave Magnon is exited by magnetic field.
Introduction ---electromagnon’s excitation Electromagnon Magnon Spin wave Magnon is exited by magnetic field. Multiferroics… Magnon can be excited by electric field of light. Electromagnon(2006) RMnO3 R; rare-earth metal Low temperature, High H N.Kida. et al Opt. Soc (2009)

6 RMnO3 Rare-earth-metal perovskite magnites
Introduction ---electromagnon’s excitation RMnO3 Rare-earth-metal perovskite magnites R; rare earth elements(Y, Eu, Tb, Dy, ・・・) M. Mochizuki, et al Phy. Rev. Lett (2010).

7 Phase Diagram of Eu1-xYxMnO3
Introduction ---electromagnon’s excitation Phase Diagram of Eu1-xYxMnO3 Spiral spin phase At ab-cycloidal… Spin chirality Spontaneous polarization

8 Super Exchange Interaction
Introduction ---electromagnon’s excitation Introduction Super Exchange Interaction The modulation of this interaction results in electromagnon’s excitation.

9 Mechanism of Electromagnon
Introduction ---electromagnon’s excitation Mechanism of Electromagnon a b E//a E//b

10 Experimental set up THz-TDS enables us to observe
   a waveform of ”E(t)” directly. By using THz-TDS ,   both amplitude and phase of ”E(t)” are directly obtained.

11 Y-type hexaferrite Ba2Mg2Fe12O22
Sample 六方晶フェライト Y-type hexaferrite Ba2Mg2Fe12O22 Ferri magnetic proper screw Conical spin T<195K T<50K Room temperature S. Ishiwata et al Science 319, 1643 (2008)

12 Transition of spin phase by weak magnetic field
Sample Transition of spin phase by weak magnetic field Weak magnetic field(~1T) H//[001] Longitudinal conical spin H(>3T) H//[100] Transverse conical spin H(>4T) Ferrimagnetic Proper screw θ (001) (100) (120)

13 Spectra change Proper-screw Conical Ferri F C Proper-screw Conical
Sample Spectra change Proper-screw Conical Ferri F C Proper-screw Conical Ferri F C E//(001) Electromagnon’s excitation was observed in conical spin order. Spectra change by weak H N. Kida et al Phy Rev B 83, (2011)

14 Z-type hexaferrites Sr3Co2Fe24O41
Sample Z-type hexaferrites Sr3Co2Fe24O41 Y-type Polarization by ME effect at room temperature. c Z-type Y. Kitagawa, etc Nat. Mat. 9, 797(2010).

15 Results Results

16 Results Results

17 Summary Summary I introduced to my study toward observation of electromagnon’s excitation at room temperature. We observed the change of spectrum by the direction of light polarization in Z-type hexaferrites Ba3Co2Fe24O41 at room temperature.

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