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Main Authors: Liu, Kai, Sha, Yating, Yin, Bo, Zhang, Hongyun, Lu, Jinxi, Liu, Shuhan, Wu, Size, Ren, Yulu, Guo, Zhongxun, Gao, Jingjing, Tian, Ming, Wan, Neng, Watanabe, Kenji, Taniguchi, Takashi, Tong, Bingbing, Liu, Guangtong, Lu, Li, Zhang, Yuanbo, Luo, Weidong, Shi, Zhiwen, Zhou, Shuyun, Wu, Quansheng, Chen, Guorui
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2505.12478
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author Liu, Kai
Sha, Yating
Yin, Bo
Zhang, Hongyun
Lu, Jinxi
Liu, Shuhan
Wu, Size
Ren, Yulu
Guo, Zhongxun
Gao, Jingjing
Tian, Ming
Wan, Neng
Watanabe, Kenji
Taniguchi, Takashi
Tong, Bingbing
Liu, Guangtong
Lu, Li
Zhang, Yuanbo
Luo, Weidong
Shi, Zhiwen
Zhou, Shuyun
Wu, Quansheng
Chen, Guorui
author_facet Liu, Kai
Sha, Yating
Yin, Bo
Zhang, Hongyun
Lu, Jinxi
Liu, Shuhan
Wu, Size
Ren, Yulu
Guo, Zhongxun
Gao, Jingjing
Tian, Ming
Wan, Neng
Watanabe, Kenji
Taniguchi, Takashi
Tong, Bingbing
Liu, Guangtong
Lu, Li
Zhang, Yuanbo
Luo, Weidong
Shi, Zhiwen
Zhou, Shuyun
Wu, Quansheng
Chen, Guorui
contents Graphene multilayers exhibit electronic spectra that depend sensitively on both the number of layers and their stacking order. Beyond trilayer graphene, mixed stacking sequences (alternating Bernal and rhombohedral layers) give rise to multiple coexisting low-energy bands. Here we investigate ABCBC-stacked pentalayer graphene, a less-studied non-centrosymmetric mixed sequence. This stacking can be regarded as an ABC (rhombohedral) trilayer on top of an AB (Bernal) bilayer, so its low-energy band structure contains both a cubic band and a parabolic band that hybridize. In transport measurements, we observe an intrinsic band gap at charge neutrality whose magnitude changes asymmetrically under an applied perpendicular displacement field. This behavior reflects the spontaneous layer polarization inherent to the broken inversion symmetry and mirror symmetry. By tuning the displacement field and carrier density, we drive multiple Lifshitz transitions in the Fermi surface topology and realize Landau levels with different degeneracies arising from the multi-flatband system. Remarkably, a v = -6 quantum Hall state emerges at an exceptionally low magnetic field (~20 mT), indicating the interplay between spontaneous symmetry breaking and Berry curvatures. Our results establish mixed-stacked multilayer graphene as a tunable platform with various broken symmetries and multiple flatbands, suitable for exploring emergent correlated electronic states.
format Preprint
id arxiv_https___arxiv_org_abs_2505_12478
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Intrinsic layer polarization and multi-flatband transport in non-centrosymmetric mixed-stacked multilayer graphene
Liu, Kai
Sha, Yating
Yin, Bo
Zhang, Hongyun
Lu, Jinxi
Liu, Shuhan
Wu, Size
Ren, Yulu
Guo, Zhongxun
Gao, Jingjing
Tian, Ming
Wan, Neng
Watanabe, Kenji
Taniguchi, Takashi
Tong, Bingbing
Liu, Guangtong
Lu, Li
Zhang, Yuanbo
Luo, Weidong
Shi, Zhiwen
Zhou, Shuyun
Wu, Quansheng
Chen, Guorui
Mesoscale and Nanoscale Physics
Graphene multilayers exhibit electronic spectra that depend sensitively on both the number of layers and their stacking order. Beyond trilayer graphene, mixed stacking sequences (alternating Bernal and rhombohedral layers) give rise to multiple coexisting low-energy bands. Here we investigate ABCBC-stacked pentalayer graphene, a less-studied non-centrosymmetric mixed sequence. This stacking can be regarded as an ABC (rhombohedral) trilayer on top of an AB (Bernal) bilayer, so its low-energy band structure contains both a cubic band and a parabolic band that hybridize. In transport measurements, we observe an intrinsic band gap at charge neutrality whose magnitude changes asymmetrically under an applied perpendicular displacement field. This behavior reflects the spontaneous layer polarization inherent to the broken inversion symmetry and mirror symmetry. By tuning the displacement field and carrier density, we drive multiple Lifshitz transitions in the Fermi surface topology and realize Landau levels with different degeneracies arising from the multi-flatband system. Remarkably, a v = -6 quantum Hall state emerges at an exceptionally low magnetic field (~20 mT), indicating the interplay between spontaneous symmetry breaking and Berry curvatures. Our results establish mixed-stacked multilayer graphene as a tunable platform with various broken symmetries and multiple flatbands, suitable for exploring emergent correlated electronic states.
title Intrinsic layer polarization and multi-flatband transport in non-centrosymmetric mixed-stacked multilayer graphene
topic Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2505.12478