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Autores principales: Wang, Jingyue, Huang, Junwei, Kaplan, Daniel, Zhou, Xuehan, Tan, Congwei, Zhang, Jing, Jin, Gangjian, Cong, Xuzhong, Zhu, Yongchao, Gao, Xiaoyin, Liang, Yan, Zuo, Huakun, Zhu, Zengwei, Zhu, Ruixue, Stern, Ady, Liu, Hongtao, Gao, Peng, Yan, Binghai, Yuan, Hongtao, Peng, Hailin
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2404.00695
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author Wang, Jingyue
Huang, Junwei
Kaplan, Daniel
Zhou, Xuehan
Tan, Congwei
Zhang, Jing
Jin, Gangjian
Cong, Xuzhong
Zhu, Yongchao
Gao, Xiaoyin
Liang, Yan
Zuo, Huakun
Zhu, Zengwei
Zhu, Ruixue
Stern, Ady
Liu, Hongtao
Gao, Peng
Yan, Binghai
Yuan, Hongtao
Peng, Hailin
author_facet Wang, Jingyue
Huang, Junwei
Kaplan, Daniel
Zhou, Xuehan
Tan, Congwei
Zhang, Jing
Jin, Gangjian
Cong, Xuzhong
Zhu, Yongchao
Gao, Xiaoyin
Liang, Yan
Zuo, Huakun
Zhu, Zengwei
Zhu, Ruixue
Stern, Ady
Liu, Hongtao
Gao, Peng
Yan, Binghai
Yuan, Hongtao
Peng, Hailin
contents In the presence of high magnetic field, quantum Hall systems usually host both even- and odd-integer quantized states because of lifted band degeneracies. Selective control of these quantized states is challenging but essential to understand the exotic ground states and manipulate the spin textures. Here, we study the quantum Hall effect in Bi2O2Se thin films. In magnetic fields as high as 50 T, we observe only even-integer quantum Hall states, but no sign of odd-integer states. However, when reducing the thickness of the epitaxial Bi2O2Se film to one unit cell, we observe both odd- and even-integer states in this Janus (asymmetric) film grown on SrTiO3. By means of a Rashba bilayer model based on ab initio band structures of Bi2O2Se thin films, we can ascribe the absence of odd-integer states in thicker films to the hidden Rasbha effect, where the local inversion symmetry breaking in two sectors of the [Bi2O2]2+ layer yields opposite Rashba spin polarizations, which compensate with each other. In the one unit cell Bi2O2Se film grown on SrTiO3, the asymmetry introduced by top surface and bottom interface induces a net polar field. The resulting global Rashba effect lifts the band degeneracies present in the symmetric case of thicker films.
format Preprint
id arxiv_https___arxiv_org_abs_2404_00695
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Even-integer Quantum Hall Effect in an Oxide Caused by Hidden Rashba Effect
Wang, Jingyue
Huang, Junwei
Kaplan, Daniel
Zhou, Xuehan
Tan, Congwei
Zhang, Jing
Jin, Gangjian
Cong, Xuzhong
Zhu, Yongchao
Gao, Xiaoyin
Liang, Yan
Zuo, Huakun
Zhu, Zengwei
Zhu, Ruixue
Stern, Ady
Liu, Hongtao
Gao, Peng
Yan, Binghai
Yuan, Hongtao
Peng, Hailin
Mesoscale and Nanoscale Physics
Materials Science
In the presence of high magnetic field, quantum Hall systems usually host both even- and odd-integer quantized states because of lifted band degeneracies. Selective control of these quantized states is challenging but essential to understand the exotic ground states and manipulate the spin textures. Here, we study the quantum Hall effect in Bi2O2Se thin films. In magnetic fields as high as 50 T, we observe only even-integer quantum Hall states, but no sign of odd-integer states. However, when reducing the thickness of the epitaxial Bi2O2Se film to one unit cell, we observe both odd- and even-integer states in this Janus (asymmetric) film grown on SrTiO3. By means of a Rashba bilayer model based on ab initio band structures of Bi2O2Se thin films, we can ascribe the absence of odd-integer states in thicker films to the hidden Rasbha effect, where the local inversion symmetry breaking in two sectors of the [Bi2O2]2+ layer yields opposite Rashba spin polarizations, which compensate with each other. In the one unit cell Bi2O2Se film grown on SrTiO3, the asymmetry introduced by top surface and bottom interface induces a net polar field. The resulting global Rashba effect lifts the band degeneracies present in the symmetric case of thicker films.
title Even-integer Quantum Hall Effect in an Oxide Caused by Hidden Rashba Effect
topic Mesoscale and Nanoscale Physics
Materials Science
url https://arxiv.org/abs/2404.00695