N. Kida scite author profile

We propose that concurrently magnetic and ferroelectric, i.e., multiferroic, compounds endowed with electrically active magnetic excitations (electromagnons) provide a key to producing large directional dichroism for long wavelengths of light. By exploiting the control of ferroelectric polarization and magnetization in a multiferroic oxide Ba(2)CoGe(2)O(7), we demonstrate the realization of such a directional light-switch function at terahertz frequencies in resonance with the electromagnon absorption. Our results imply that this hidden potential is present in a broad variety of multiferroics.

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Control of the ferroelectric properties ofDyMn2O5by magnetic fields

Higashiyama

et al. 2004

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Terahertz Radiation by an Ultrafast Spontaneous Polarization Modulation of MultiferroicBiFeO3Thin Films

2006

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Terahertz (THz) radiation has been observed from multiferroic BiFeO3 thin films via ultrafast modulation of spontaneous polarization upon carrier excitation with illumination of femtosecond laser pulses. The radiated THz pulses from BiFeO3 thin films were clarified to directly reflect the spontaneous polarization state, giving rise to a memory effect in a unique style and enabling THz radiation even at zero-bias electric field. On the basis of our findings, we demonstrate potential approaches to ferroelectric nonvolatile random access memory with nondestructive readability and ferroelectric domain imaging microscopy using THz radiation as a sensitive probe.

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N. Kida

Enhanced Directional Dichroism of Terahertz Light in Resonance with Magnetic Excitations of the MultiferroicBa2CoGe2O7Oxide Compound

Control of the ferroelectric properties ofDyMn2O5by magnetic fields

Terahertz Radiation by an Ultrafast Spontaneous Polarization Modulation of MultiferroicBiFeO3Thin Films

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