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Main Authors: Niu, Yuekun, Ni, Yu, Zhang, Haishan, Qiu, Liang, Wang, Jianli, Chen, Leiming, Song, Yun, Feng, Shiping
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2312.05860
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author Niu, Yuekun
Ni, Yu
Zhang, Haishan
Qiu, Liang
Wang, Jianli
Chen, Leiming
Song, Yun
Feng, Shiping
author_facet Niu, Yuekun
Ni, Yu
Zhang, Haishan
Qiu, Liang
Wang, Jianli
Chen, Leiming
Song, Yun
Feng, Shiping
contents We examine the orbital-selective Mott transition in the non-hybridized two-band Hubbard model using the dynamical mean-field theory. We find that the orbital-selective Mott transition could be quantitatively depicted by the {local two-qubit fidelity}. Furthermore, within the orbital-selective Mott phase, the combined characteristics of the two orbitals lead to the presence of quantum entanglement, which is characterized by the non-semi-integer values of local two-qubit fidelity. It is demonstrated that the Hund's coupling results in the ground states of both wide and narrow bands exhibiting the specific superposition states, indicating the existence of quantum entanglement within orbital-selective Mott phase. Without Hund's coupling, there are no specific superposition states, nor does quantum entanglement occur within the orbital-selective Mott phase. The mechanisms underlying the orbital-selective Mott transition show prominent variations depending on the presence or absence of Hund's coupling and its transverse terms.
format Preprint
id arxiv_https___arxiv_org_abs_2312_05860
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Quantitative determination of the orbital-selective Mott transition and quantum entanglement in the orbital-selective Mott phase
Niu, Yuekun
Ni, Yu
Zhang, Haishan
Qiu, Liang
Wang, Jianli
Chen, Leiming
Song, Yun
Feng, Shiping
Strongly Correlated Electrons
We examine the orbital-selective Mott transition in the non-hybridized two-band Hubbard model using the dynamical mean-field theory. We find that the orbital-selective Mott transition could be quantitatively depicted by the {local two-qubit fidelity}. Furthermore, within the orbital-selective Mott phase, the combined characteristics of the two orbitals lead to the presence of quantum entanglement, which is characterized by the non-semi-integer values of local two-qubit fidelity. It is demonstrated that the Hund's coupling results in the ground states of both wide and narrow bands exhibiting the specific superposition states, indicating the existence of quantum entanglement within orbital-selective Mott phase. Without Hund's coupling, there are no specific superposition states, nor does quantum entanglement occur within the orbital-selective Mott phase. The mechanisms underlying the orbital-selective Mott transition show prominent variations depending on the presence or absence of Hund's coupling and its transverse terms.
title Quantitative determination of the orbital-selective Mott transition and quantum entanglement in the orbital-selective Mott phase
topic Strongly Correlated Electrons
url https://arxiv.org/abs/2312.05860