Department of Physics

Kohei Yokoi

  (横井 滉平)

Profile Information

Affiliation
Faculty of Science Department of Physics, Gakushuin University

Researcher number
80964452
ORCID ID
 https://orcid.org/0000-0001-7871-5223
J-GLOBAL ID
202201020913999772
researchmap Member ID
R000043304

Research History

 2

Papers

 5
  • Kentaro Shoriki, Keigo Moriishi, Yoshihiro Okamura, Kohei Yokoi, Hidetomo Usui, Hiroshi Murakawa, Hideaki Sakai, Noriaki Hanasaki, Yoshinori Tokura, Youtarou Takahashi
    Proceedings of the National Academy of Sciences, 121(12), Mar 14, 2024  
    Weyl semimetals resulting from either inversion ( P ) or time-reversal ( T ) symmetry breaking have been revealed to show the record-breaking large optical response due to intense Berry curvature of Weyl-node pairs. Different classes of Weyl semimetals with both P and T symmetry breaking potentially exhibit optical magnetoelectric (ME) responses, which are essentially distinct from the previously observed optical responses in conventional Weyl semimetals, leading to the versatile functions such as directional dependence for light propagation and gyrotropic effects. However, such optical ME phenomena of (semi)metallic systems have remained elusive so far. Here, we show the large nonlinear optical ME response in noncentrosymmetric magnetic Weyl semimetal PrAlGe, in which the polar structural asymmetry and ferromagnetic ordering break P and T symmetry. We observe the giant second harmonic generation (SHG) arising from the P symmetry breaking in the paramagnetic phase, being comparable to the largest SHG response reported in Weyl semimetal TaAs. In the ferromagnetically ordered phase, it is found that interference between this nonmagnetic SHG and the magnetically induced SHG emerging due to both P and T symmetry breaking results in the magnetic field switching of SHG intensity. Furthermore, such an interference effect critically depends on the light-propagating direction. The corresponding magnetically induced nonlinear susceptibility is significantly larger than the prototypical ME material, manifesting the existence of the strong nonlinear dynamical ME coupling. The present findings establish the unique optical functionality of P - and T -symmetry broken ME topological semimetals.
  • Kohei Yokoi, Hiroshi Murakawa, Hideaki Sakai, Noriaki Hanasaki
    Physical Review B, 106(11), Sep 12, 2022  
  • K. Yokoi, M. Yashima, H. Murakawa, H. Mukuda, K. Yamauchi, T. Oguchi, H. Sakai, N. Hanasaki
    Physical Review B, 102(21), Dec 10, 2020  
  • M. Komada, H. Murakawa, M. S. Bahramy, T. Kida, K. Yokoi, Y. Narumi, K. Kindo, M. Hagiwara, H. Sakai, N. Hanasaki
    Physical Review B, 101(4), Jan 29, 2020  
  • K. Yokoi, H. Murakawa, M. Komada, T. Kida, M. Hagiwara, H. Sakai, N. Hanasaki
    PHYSICAL REVIEW MATERIALS, 2(2), Feb, 2018  
    We have observed an extremely largemagnetoresistance exceeding 1.9 million at 1.7Kat 40 T for a single crystal of the binary semimetal NbAs2. The magnetoresistive behavior for this compound is quantitatively reproduced by a semiclassical two-carrier model in which the significant enhancement of magnetoresistance is attributed to the almost full compensation of the hole and electron densities (0.994 < n(h)/n(e) <= 0.999) as well as the high mobility (> 6 x 10(5) cm(2)/V . s). Our results indicate that binary semimetals with higher carrier densities have a great potential for exhibiting a further divergent increase in magnetoresistance merely through an improvement in crystal quality.

Misc.

 2

Research Projects

 2