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Tokunaga, Masashi
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Publications (6/6 displayed)
- 2024High-field immiscibility of electrons belonging to adjacent twinned bismuth crystalscitations
- 2024High-field immiscibility of electrons belonging to adjacent twinned bismuth crystalscitations
- 2023High-field immiscibility of electrons belonging to adjacent twinned bismuth crystals
- 2022Possible helimagnetic order in Co4+-containing perovskites Sr1-xCaxCoO3
- 2021Tunable spin-valley coupling in layered polar Dirac metalscitations
- 2020Anisotropic Quantum Transport through a Single Spin Channel in the Magnetic Semiconductor EuTiO3citations
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article
Anisotropic Quantum Transport through a Single Spin Channel in the Magnetic Semiconductor EuTiO3
Abstract
Magnetic semiconductors are a vital component in the understanding of quantum transport phenomena. To explore such delicate, yet fundamentally important, effects, it is crucial to maintain a high carrier mobility in the presence of magnetic moments. In practice, however, magnetization often diminishes the carrier mobility. Here, it is shown that EuTiO3 is a rare example of a magnetic semiconductor that can be desirably grown using the molecular beam epitaxy to possess a high carrier mobility exceeding 3000 cm2 V−1 s−1 at 2 K, while intrinsically hosting a large magnetization value, 7 μB per formula unit. This is demonstrated by measuring the Shubnikov–de Haas (SdH) oscillations in the ferromagnetic state of EuTiO3 films with various carrier densities. Using first-principles calculations, it is shown that the observed SdH oscillations originate genuinely from Ti 3d-t2g states which are fully spin-polarized due to their energetical proximity to the in-gap Eu 4f bands. Such an exchange coupling is further shown to have a profound effect on the effective mass and fermiology of the Ti 3d-t2g electrons, manifested by a directional anisotropy in the SdH oscillations. These findings suggest that EuTiO3 film is an ideal magnetic semiconductor, offering a fertile field to explore quantum phenomena suitable for spintronic applications.