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平原 徹*; Otrokov, M. M.*; 佐々木 泰祐*; 角田 一樹*; 友弘 雄太*; 日下 翔太郎*; 奥山 裕磨*; 一ノ倉 聖*; 小林 正起*; 竹田 幸治; et al.
Nature Communications (Internet), 11, p.4821_1 - 4821_8, 2020/09
被引用回数:41 パーセンタイル:93.11(Multidisciplinary Sciences)We fabricate a novel magnetic topological heterostructure MnBiTe/BiTe where multiple magnetic layers are inserted into the topmost quintuple layer of the original topological insulator BiTe. A massive Dirac cone (DC) with a gap of 40-75 meV at 16 K is observed. By tracing the temperature evolution, this gap is shown to gradually decrease with increasing temperature and a blunt transition from a massive to a massless DC occurs around 200-250 K. Magnetic measurements show that there are two distinct Mn components in the system that corresponds to the two heterostructures; MnBiTe/BiTe is paramagnetic at 6 K while MnBiTe/BiTe is ferromagnetic with a negative hysteresis (critical temperature 20 K). This novel heterostructure is potentially important for future device applications.
Shikin, A. M.*; Estyunin, D. A.*; Klimovskikh, I. I.*; Filnov, S. O.*; Kumar, S.*; Schwier, E. F.*; 宮本 幸治*; 奥田 太一*; 木村 昭夫*; 黒田 健太*; et al.
Scientific Reports (Internet), 10, p.13226_1 - 13226_13, 2020/08
被引用回数:59 パーセンタイル:96.43(Multidisciplinary Sciences)Modification of the gap at the Dirac point (DP) in axion antiferromagnetic topological insulator MnBiTe and its electronic and spin structure have been studied by angle- and spin-resolved photoemission spectroscopy (ARPES) under laser excitation at various temperatures, light polarizations and photon energies. We have distinguished both large and reduced gaps at the DP in the ARPES dispersions, which remain open above the Nel temperature of = 24.5 K. We propose that the gap above remains open due to a short-range magnetic field generated by chiral spin fluctuations. Spin-resolved ARPES, XMCD and circular dichroism ARPES measurements show a surface ferromagnetic ordering for the large gap sample and apparently significantly reduced effective magnetic moment for the reduced gap sample.
Ye. M.*; Eremeev, S. V.*; 黒田 健太*; Krasovskii, E. E.*; Chulkov, E. V.*; 竹田 幸治; 斎藤 祐児; 岡本 和晃*; Zhu, S. Y.*; 宮本 幸治*; et al.
Physical Review B, 85(20), p.205317_1 - 205317_5, 2012/05
被引用回数:62 パーセンタイル:89.64(Materials Science, Multidisciplinary)トポロジカル絶縁体BiSeの表面にコバルトを蒸着した系に対して、コバルトの物性に注目して、トンネル分光,角度分解光電子分光,磁気円二色性及び理論計算を組合せて得られた研究成果である。原子力機構としての貢献は、磁気円二色性を用いてコバルトの磁性を調べた部分である。トポロジカル絶縁体表面では磁性元素が強磁性を示すという理論的予想があるが、今回の実験では、BiSeとコバルトとの組合せでは強磁性を示さないという実験的証拠を示すことができた。