Author
Listed:
- Runfa Feng
(Tsinghua University)
- Yang Zhang
(Tsinghua University)
- Jiaheng Li
(Tsinghua University)
- Qian Li
(Tsinghua University)
- Changhua Bao
(Tsinghua University)
- Hongyun Zhang
(Tsinghua University
Tohoku University)
- Wanying Chen
(Tsinghua University)
- Xiao Tang
(Tsinghua University)
- Ken Yaegashi
(Tohoku University)
- Katsuaki Sugawara
(Tohoku University
Tohoku University)
- Takafumi Sato
(Tohoku University
Tohoku University)
- Wenhui Duan
(Tsinghua University
Frontier Science Center for Quantum Information
Tsinghua University)
- Pu Yu
(Tsinghua University
Frontier Science Center for Quantum Information)
- Shuyun Zhou
(Tsinghua University
Frontier Science Center for Quantum Information)
Abstract
Achieving a large spin splitting is highly desirable for spintronic devices, which often requires breaking of the inversion symmetry. However, many atomically thin films are centrosymmetric, making them unsuitable for spintronic applications. Here, we report a strategy to achieve inversion symmetry breaking from a centrosymmetric transition metal dichalcogenide (TMDC) bilayer PtTe2, leading to a giant Rashba spin splitting. Specifically, the thermal annealing turns one layer of PtTe2 sample into a transition metal monochalcogenide (TMMC) PtTe through Te extraction, thus forming PtTe/PtTe2 heterostructure with inversion symmetry breaking. In this naturally-formed PtTe/PtTe2 heterostructure, we observe a giant Rashba spin splitting with Rashba coefficient of αR = 1.8 eV ⋅ Å, as revealed by spin- and angle-resolved photoemission spectroscopy measurements. Our work demonstrates a convenient and effective pathway for achieving pronounced Rashba splitting in centrosymmetric TMDC thin films by creating TMMC/TMDC heterostructure, thereby extending their potential applications to spintronics.
Suggested Citation
Runfa Feng & Yang Zhang & Jiaheng Li & Qian Li & Changhua Bao & Hongyun Zhang & Wanying Chen & Xiao Tang & Ken Yaegashi & Katsuaki Sugawara & Takafumi Sato & Wenhui Duan & Pu Yu & Shuyun Zhou, 2025.
"Giant Rashba splitting in PtTe/PtTe2 heterostructure,"
Nature Communications, Nature, vol. 16(1), pages 1-8, December.
Handle:
RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-57835-1
DOI: 10.1038/s41467-025-57835-1
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