Your search keyword '"Rikizo YANO"' showing total 2 results

1. Proximity-Induced Superconducting States of Magnetically Doped 3D Topological Insulators with High Bulk Insulation

Author

Rikizo Yano, Hishiro T. Hirose, Kohei Tsumura, Shuhei Yamamoto, Masao Koyanagi, Manabu Kanou, Hiromi Kashiwaya, Takao Sasagawa, and Satoshi Kashiwaya

Subjects

unconventional superconducting states, magnetized topological insulators, proximity effects, crystal growth, junction fabrication process, Physics, QC1-999

Abstract

We studied magnetized topological insulator/superconductor junctions with the expectation of unconventional superconductive states holding Majorana fermions induced by superconductive proximity effects on the surface states of magnetized topological insulators (TIs), attached by conventional superconductors. We introduced Fe-doped BiSbTe2Se as an ideal magnetic TI and used the developed junction fabrication process to access the proximity-induced surface superconducting states. The bulk single crystals of the Fe-doped TI showed excellent bulk-insulating properties and ferromagnetism simultaneously at a low temperature. Meanwhile, the fabricated junctions also showed an insulating behavior above 100 K, as well as metallic conduction at a low temperature, which reflects bulk carrier freezing. In addition, we observed a proximity-induced gap structure in the conductance spectra. These results indicate that the junctions using the established materials and process are preferable to observe unconventional superconducting states which are induced via the surface channels of the magnetized TI. We believe that the developed process can be applied for the fabrication of complicated junctions and suites for braiding operations.

Published

2019

2. Proximity-Induced Superconducting States of Magnetically Doped 3D Topological Insulators with High Bulk Insulation

Author

Kohei Tsumura, Hishiro T. Hirose, Rikizo Yano, Manabu Kanou, Shuhei Yamamoto, Hiromi Kashiwaya, Masao Koyanagi, Satoshi Kashiwaya, and Takao Sasagawa

Subjects

Fabrication, Materials science, Crystal growth, 02 engineering and technology, proximity effects, 01 natural sciences, unconventional superconducting states, Condensed Matter::Superconductivity, 0103 physical sciences, 010306 general physics, junction fabrication process, Surface states, Superconductivity, Condensed matter physics, magnetized topological insulators, Doping, crystal growth, Fermion, 021001 nanoscience & nanotechnology, Condensed Matter Physics, lcsh:QC1-999, Electronic, Optical and Magnetic Materials, Ferromagnetism, Topological insulator, 0210 nano-technology, lcsh:Physics

Abstract

We studied magnetized topological insulator/superconductor junctions with the expectation of unconventional superconductive states holding Majorana fermions induced by superconductive proximity effects on the surface states of magnetized topological insulators (TIs), attached by conventional superconductors. We introduced Fe-doped BiSbTe2Se as an ideal magnetic TI and used the developed junction fabrication process to access the proximity-induced surface superconducting states. The bulk single crystals of the Fe-doped TI showed excellent bulk-insulating properties and ferromagnetism simultaneously at a low temperature. Meanwhile, the fabricated junctions also showed an insulating behavior above 100 K, as well as metallic conduction at a low temperature, which reflects bulk carrier freezing. In addition, we observed a proximity-induced gap structure in the conductance spectra. These results indicate that the junctions using the established materials and process are preferable to observe unconventional superconducting states which are induced via the surface channels of the magnetized TI. We believe that the developed process can be applied for the fabrication of complicated junctions and suites for braiding operations.

Published

2019