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寺田 典樹*; Qureshi, N.*; Stunault, A.*; Enderle, M.*; Ouladdiaf, B.*; Colin, C. V.*; Khalyavin, D. D.*; Manuel, P.*; Orlandi, F.*; 宮原 慎*; et al.
Physical Review B, 102(8), p.085131_1 - 085131_7, 2020/08
被引用回数:3 パーセンタイル:19.68(Materials Science, Multidisciplinary)We have determined the magnetic structures in high pressure phase with the giant ferroelectric polarization in DyMnO. For Mn spins, the E-type magnetic ordering is stabilized above 4.0 GPa, which induces the giant ferroelectric polarization through the exchange striction effect. Furthermore, we have elucidate that the lattice distortion generated through the exchange striction for the Dy and Mn bonds can give the significant magnetic field enhancement of ferroelectric polarization in this system.
寺田 典樹*; Qureshi, N.*; Chapon, L. C.*; 長壁 豊隆
Nature Communications (Internet), 9, p.4368_1 - 4368_9, 2018/10
被引用回数:5 パーセンタイル:25.82(Multidisciplinary Sciences)We have succeeded in carrying out the first spherical neutron polarimetry (SNP) experiments in conjunction with the application of pressure, working with the multiferroic delafossite CuFeO and using the newly developed nonmagnetic hybrid anvil high pressure cell (HAC). This work determined the detailed magnetic structures in the pressure-induced ferroelectric phases of this material, as well as nonpolar phases at ambient pressure. The present study provides evidence that SNP measurements are viable even in combination with high pressure conditions.