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| Main Authors: | , , , , |
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| Format: | Preprint |
| Published: |
2023
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| Subjects: | |
| Online Access: | https://arxiv.org/abs/2308.14342 |
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| _version_ | 1866915432706867200 |
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| author | Gong, Zhao Zhang, Qing-Qing Mu, Hui-Ying An, Xing-Tao Liu, Jian-Jun |
| author_facet | Gong, Zhao Zhang, Qing-Qing Mu, Hui-Ying An, Xing-Tao Liu, Jian-Jun |
| contents | Since the discovery of the fascinating properties in magic-angle graphene, the exploration of moiré systems in other two-dimensional materials has garnered significant attention and given rise to a field known as 'moiré physics'. Within this realm, magnetic van der Waals heterostructure and the magnetic proximity effect in moiré superlattices have also become subjects of great interest. However, the spin-polarized transport property in this moiré structures is still a problem to be explored. Here, we investigate the spin-polarized transport properties in a moiré superlattices formed by a two-dimensional ferromagnet CrI_3 stacked on a monolayer BAs, where the spin degeneracy is lifted because of the magnetic proximity effect associated with the moiré superlattices. We find that the conductance exhibits spin-resolved miniband transport properties at a small twist angle because of the periodic moiré superlattices. When the incident energy is in the spin-resolved minigaps, the available states are spin polarized, thus providing a spin-polarized current from the superlattice. Moreover, only a finite number of moiré period is required to obtain a net spin polarization of 100\%. In addition, the interlayer distance of the heterojunction is also moiré modifiable, so a perpendicular electric field can be applied to modulate the intensity and direction of the spin polarization. Our finding points to an opportunity to realize spin functionalities in magnetic moiré superlattices. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2308_14342 |
| institution | arXiv |
| publishDate | 2023 |
| record_format | arxiv |
| spellingShingle | Spin-polarized transport properties in magnetic moiré superlattices Gong, Zhao Zhang, Qing-Qing Mu, Hui-Ying An, Xing-Tao Liu, Jian-Jun Mesoscale and Nanoscale Physics Since the discovery of the fascinating properties in magic-angle graphene, the exploration of moiré systems in other two-dimensional materials has garnered significant attention and given rise to a field known as 'moiré physics'. Within this realm, magnetic van der Waals heterostructure and the magnetic proximity effect in moiré superlattices have also become subjects of great interest. However, the spin-polarized transport property in this moiré structures is still a problem to be explored. Here, we investigate the spin-polarized transport properties in a moiré superlattices formed by a two-dimensional ferromagnet CrI_3 stacked on a monolayer BAs, where the spin degeneracy is lifted because of the magnetic proximity effect associated with the moiré superlattices. We find that the conductance exhibits spin-resolved miniband transport properties at a small twist angle because of the periodic moiré superlattices. When the incident energy is in the spin-resolved minigaps, the available states are spin polarized, thus providing a spin-polarized current from the superlattice. Moreover, only a finite number of moiré period is required to obtain a net spin polarization of 100\%. In addition, the interlayer distance of the heterojunction is also moiré modifiable, so a perpendicular electric field can be applied to modulate the intensity and direction of the spin polarization. Our finding points to an opportunity to realize spin functionalities in magnetic moiré superlattices. |
| title | Spin-polarized transport properties in magnetic moiré superlattices |
| topic | Mesoscale and Nanoscale Physics |
| url | https://arxiv.org/abs/2308.14342 |