Direct evidence of hidden local spin polarization in a centrosymmetric superconductor LaO0.55 F0.45BiS2
Conventional Rashba spin polarization is caused by the combination of strong spin–orbit interaction and spatial inversion asymmetry. However, Rashba–Dresselhaus-type spin-split states are predicted in the centrosymmetric LaOBiS 2 system by recent theory, which stem from the local inversion asymmetry...
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| Published in | Nature communications Vol. 8; no. 1; pp. 1 - 7 |
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| Main Authors | , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
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04.12.2017
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| Abstract | Conventional Rashba spin polarization is caused by the combination of strong spin–orbit interaction and spatial inversion asymmetry. However, Rashba–Dresselhaus-type spin-split states are predicted in the centrosymmetric LaOBiS
2
system by recent theory, which stem from the local inversion asymmetry of active BiS
2
layer. By performing high-resolution spin- and angle-resolved photoemission spectroscopy, we have investigated the electronic band structure and spin texture of superconductor LaO
0.55
F
0.45
BiS
2
. Here we present direct spectroscopic evidence for the local spin polarization of both the valence band and the conduction band. In particular, the coexistence of Rashba-like and Dresselhaus-like spin textures has been observed in the conduction band. The finding is of key importance for fabrication of proposed dual-gated spin-field effect transistor. Moreover, the spin-split band leads to a spin–momentum locking Fermi surface from which superconductivity emerges. Our demonstration not only expands the scope of spintronic materials but also enhances the understanding of spin–orbit interaction-related superconductivity.
The local broken symmetry induced spin-splitting in centrosymmetric materials has been predicted previously. Here the authors provide spectroscopic evidence for the coexistence of Rashba-like and Dresselhaus-like spin textures in centrosymmetric electron doped superconductor La(O,F)BiS
2
. |
|---|---|
| AbstractList | The local broken symmetry induced spin-splitting in centrosymmetric materials has been predicted previously. Here the authors provide spectroscopic evidence for the coexistence of Rashba-like and Dresselhaus-like spin textures in centrosymmetric electron doped superconductor La(O,F)BiS2. Conventional Rashba spin polarization is caused by the combination of strong spin–orbit interaction and spatial inversion asymmetry. However, Rashba–Dresselhaus-type spin-split states are predicted in the centrosymmetric LaOBiS 2 system by recent theory, which stem from the local inversion asymmetry of active BiS 2 layer. By performing high-resolution spin- and angle-resolved photoemission spectroscopy, we have investigated the electronic band structure and spin texture of superconductor LaO 0.55 F 0.45 BiS 2 . Here we present direct spectroscopic evidence for the local spin polarization of both the valence band and the conduction band. In particular, the coexistence of Rashba-like and Dresselhaus-like spin textures has been observed in the conduction band. The finding is of key importance for fabrication of proposed dual-gated spin-field effect transistor. Moreover, the spin-split band leads to a spin–momentum locking Fermi surface from which superconductivity emerges. Our demonstration not only expands the scope of spintronic materials but also enhances the understanding of spin–orbit interaction-related superconductivity. The local broken symmetry induced spin-splitting in centrosymmetric materials has been predicted previously. Here the authors provide spectroscopic evidence for the coexistence of Rashba-like and Dresselhaus-like spin textures in centrosymmetric electron doped superconductor La(O,F)BiS 2 . Conventional Rashba spin polarization is caused by the combination of strong spin–orbit interaction and spatial inversion asymmetry. However, Rashba–Dresselhaus-type spin-split states are predicted in the centrosymmetric LaOBiS2 system by recent theory, which stem from the local inversion asymmetry of active BiS2 layer. By performing high-resolution spin- and angle-resolved photoemission spectroscopy, we have investigated the electronic band structure and spin texture of superconductor LaO0.55F0.45BiS2. Here we present direct spectroscopic evidence for the local spin polarization of both the valence band and the conduction band. In particular, the coexistence of Rashba-like and Dresselhaus-like spin textures has been observed in the conduction band. The finding is of key importance for fabrication of proposed dual-gated spin-field effect transistor. Moreover, the spin-split band leads to a spin–momentum locking Fermi surface from which superconductivity emerges. Our demonstration not only expands the scope of spintronic materials but also enhances the understanding of spin–orbit interaction-related superconductivity. Conventional Rashba spin polarization is caused by the combination of strong spin–orbit interaction and spatial inversion asymmetry. However, Rashba–Dresselhaus-type spin-split states are predicted in the centrosymmetric LaOBiS 2 system by recent theory, which stem from the local inversion asymmetry of active BiS 2 layer. By performing high-resolution spin- and angle-resolved photoemission spectroscopy, we have investigated the electronic band structure and spin texture of superconductor LaO 0.55 F 0.45 BiS 2 . Here we present direct spectroscopic evidence for the local spin polarization of both the valence band and the conduction band. In particular, the coexistence of Rashba-like and Dresselhaus-like spin textures has been observed in the conduction band. The finding is of key importance for fabrication of proposed dual-gated spin-field effect transistor. Moreover, the spin-split band leads to a spin–momentum locking Fermi surface from which superconductivity emerges. Our demonstration not only expands the scope of spintronic materials but also enhances the understanding of spin–orbit interaction-related superconductivity. Conventional Rashba spin polarization is caused by the combination of strong spin-orbit interaction and spatial inversion asymmetry. However, Rashba-Dresselhaus-type spin-split states are predicted in the centrosymmetric LaOBiS2 system by recent theory, which stem from the local inversion asymmetry of active BiS2 layer. By performing high-resolution spin- and angle-resolved photoemission spectroscopy, we have investigated the electronic band structure and spin texture of superconductor LaO0.55F0.45BiS2. Here we present direct spectroscopic evidence for the local spin polarization of both the valence band and the conduction band. In particular, the coexistence of Rashba-like and Dresselhaus-like spin textures has been observed in the conduction band. The finding is of key importance for fabrication of proposed dual-gated spin-field effect transistor. Moreover, the spin-split band leads to a spin-momentum locking Fermi surface from which superconductivity emerges. Our demonstration not only expands the scope of spintronic materials but also enhances the understanding of spin-orbit interaction-related superconductivity.Conventional Rashba spin polarization is caused by the combination of strong spin-orbit interaction and spatial inversion asymmetry. However, Rashba-Dresselhaus-type spin-split states are predicted in the centrosymmetric LaOBiS2 system by recent theory, which stem from the local inversion asymmetry of active BiS2 layer. By performing high-resolution spin- and angle-resolved photoemission spectroscopy, we have investigated the electronic band structure and spin texture of superconductor LaO0.55F0.45BiS2. Here we present direct spectroscopic evidence for the local spin polarization of both the valence band and the conduction band. In particular, the coexistence of Rashba-like and Dresselhaus-like spin textures has been observed in the conduction band. The finding is of key importance for fabrication of proposed dual-gated spin-field effect transistor. Moreover, the spin-split band leads to a spin-momentum locking Fermi surface from which superconductivity emerges. Our demonstration not only expands the scope of spintronic materials but also enhances the understanding of spin-orbit interaction-related superconductivity. |
| ArticleNumber | 1919 |
| Author | Wu, Shi-Long Nagao, Masanori Tanaka, Isao Arita, Masashi Miyamoto, Koji Kimura, Akio Ueda, Yoshifumi Taguchi, Kazuaki Yoshikawa, Tomoki Watauchi, Satoshi Sumida, Kazuki Okuda, Taichi |
| Author_xml | – sequence: 1 givenname: Shi-Long surname: Wu fullname: Wu, Shi-Long organization: Graduate School of Science, Hiroshima University – sequence: 2 givenname: Kazuki orcidid: 0000-0002-5783-3703 surname: Sumida fullname: Sumida, Kazuki organization: Graduate School of Science, Hiroshima University – sequence: 3 givenname: Koji surname: Miyamoto fullname: Miyamoto, Koji organization: Hiroshima Synchrotron Radiation Center (HSRC), Hiroshima University – sequence: 4 givenname: Kazuaki surname: Taguchi fullname: Taguchi, Kazuaki organization: Graduate School of Science, Hiroshima University – sequence: 5 givenname: Tomoki surname: Yoshikawa fullname: Yoshikawa, Tomoki organization: Graduate School of Science, Hiroshima University – sequence: 6 givenname: Akio surname: Kimura fullname: Kimura, Akio organization: Graduate School of Science, Hiroshima University – sequence: 7 givenname: Yoshifumi orcidid: 0000-0003-1236-5114 surname: Ueda fullname: Ueda, Yoshifumi organization: Hiroshima Synchrotron Radiation Center (HSRC), Hiroshima University – sequence: 8 givenname: Masashi surname: Arita fullname: Arita, Masashi organization: Hiroshima Synchrotron Radiation Center (HSRC), Hiroshima University – sequence: 9 givenname: Masanori surname: Nagao fullname: Nagao, Masanori organization: Center for Crystal Science and Technology (CCST), University of Yamanashi – sequence: 10 givenname: Satoshi surname: Watauchi fullname: Watauchi, Satoshi organization: Center for Crystal Science and Technology (CCST), University of Yamanashi – sequence: 11 givenname: Isao surname: Tanaka fullname: Tanaka, Isao organization: Center for Crystal Science and Technology (CCST), University of Yamanashi – sequence: 12 givenname: Taichi orcidid: 0000-0002-5790-3847 surname: Okuda fullname: Okuda, Taichi email: okudat@hiroshima-u.ac.jp organization: Hiroshima Synchrotron Radiation Center (HSRC), Hiroshima University |
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| Snippet | Conventional Rashba spin polarization is caused by the combination of strong spin–orbit interaction and spatial inversion asymmetry. However,... Conventional Rashba spin polarization is caused by the combination of strong spin-orbit interaction and spatial inversion asymmetry. However,... The local broken symmetry induced spin-splitting in centrosymmetric materials has been predicted previously. Here the authors provide spectroscopic evidence... |
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| SubjectTerms | 639/766/119/1001 639/766/119/1003 639/766/119/2792 639/766/119/995 Asymmetry Band structure of solids Coexistence Conduction Conduction bands Electron spin Electrons Fabrication Field effect transistors Humanities and Social Sciences multidisciplinary Photoelectric emission Polarization Polarization (spin alignment) Science Science (multidisciplinary) Spectroscopy Superconductivity Valence band |
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| Title | Direct evidence of hidden local spin polarization in a centrosymmetric superconductor LaO0.55 F0.45BiS2 |
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