Multiband Ballistic Transport and Anisotropic Commensurability Magnetoresistance in Antidot Lattices of AB-stacked Trilayer Graphene

Journal of the Physical Society of Japan 89 巻 4 号 044703-1-044703-8 頁 2020-03-09 発行
アクセス数 : 234
ダウンロード数 : 81

今月のアクセス数 : 4
今月のダウンロード数 : 4
ファイル情報(添付)
JPhysSocJpn_89_044703.pdf 2.03 MB 種類 : 全文
タイトル ( eng )
Multiband Ballistic Transport and Anisotropic Commensurability Magnetoresistance in Antidot Lattices of AB-stacked Trilayer Graphene
作成者
Tajima Shingo
Ebisuoka Ryoya
Watanabe Kenji
Taniguchi Takashi
収録物名
Journal of the Physical Society of Japan
89
4
開始ページ 044703-1
終了ページ 044703-8
抄録
Ballistic transport was studied in a multiple-band system consisting of an antidot lattice of AB-stacked trilayer graphene. The low temperature magnetoresistance showed commensurability peaks arising from matching of the antidot lattice period and radius of cyclotron orbits for each mono- and bilayer-like band in AB stacked trilayer graphene. The commensurability peak of the monolayer-like band appeared at a lower magnetic field than that of the bilayer-like band, which reflects the fact that the Fermi surface of the bilayer-like band is larger than that of monolayer-like band. Rotation of the antidot lattice relative to the crystallographic axes of graphene resulted in anisotropic magnetoresistance, which reflects the trigonally warped Fermi surface of the bilayer-like band. Numerical simulations of magnetoresistance that assumed ballistic transport in the mono- and bilayer-like bands approximately reproduced the observed magnetoresistance features. It was found that the monolayer-like band significantly contributes to the conductivity even though its carrier density is an order smaller than that of the bilayer-like band. These results indicate that ballistic transport experiments could be used for studying the anisotropic band structure of multiple-band systems.
内容記述
This work was supported by a grant KAKENHI No. 25107003 from MEXT Japan.
言語
英語
資源タイプ 学術雑誌論文
出版者
The Physical Society of Japan
発行日 2020-03-09
権利情報
Copyright (c) 2020 The Physical Society of Japan
This is not the published version. Please cite only the published version. この論文は出版社版ではありません。引用の際には出版社版をご確認、ご利用ください。
出版タイプ Author’s Original(十分な品質であるとして、著者から正式な査読に提出される版)
アクセス権 オープンアクセス
収録物識別子
[ISSN] 0031-9015
[DOI] 10.7566/JPSJ.89.044703
[DOI] https://doi.org/10.7566/JPSJ.89.044703
[NCID] AA00704814