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Main Authors: Godin, Simon, Elfimov, Ilya S., Li, Fengmiao, Davidson, Bruce A., Sutarto, Ronny, Denlinger, Jonathan D., Tjeng, Liu Hao, Sawatzky, George A., Zou, Ke
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2412.19250
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author Godin, Simon
Elfimov, Ilya S.
Li, Fengmiao
Davidson, Bruce A.
Sutarto, Ronny
Denlinger, Jonathan D.
Tjeng, Liu Hao
Sawatzky, George A.
Zou, Ke
author_facet Godin, Simon
Elfimov, Ilya S.
Li, Fengmiao
Davidson, Bruce A.
Sutarto, Ronny
Denlinger, Jonathan D.
Tjeng, Liu Hao
Sawatzky, George A.
Zou, Ke
contents To explore how anion substitution modifies the existing magnetism in strongly correlated oxides, we investigate local electronic states and magnetic ordering in nickel oxide (NiO) induced by substituting oxygen (O) with nitrogen (N). Each N introduces an additional N 2p hole and modifies the magnetic moment of a neighboring nickel (Ni) cation site, as the exchange interaction between this hole and the Ni eg electrons exceeds the Ni-O-Ni superexchange interaction. This leads to the formation of Ni-N-Ni centers consisting of five spins, without perturbing the antiferromagnetic NiO lattice. These centers are studied using density functional theory and confirmed through high-resolution spectroscopy on N-substituted NiO thin films grown by molecular beam epitaxy. This type of magnetic design may enable future advances in quantum technologies based on strongly correlated materials, such as quantum sensors and spin-based qubits.
format Preprint
id arxiv_https___arxiv_org_abs_2412_19250
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Magnetic Ni-N-Ni Centers in N-substituted NiO
Godin, Simon
Elfimov, Ilya S.
Li, Fengmiao
Davidson, Bruce A.
Sutarto, Ronny
Denlinger, Jonathan D.
Tjeng, Liu Hao
Sawatzky, George A.
Zou, Ke
Strongly Correlated Electrons
To explore how anion substitution modifies the existing magnetism in strongly correlated oxides, we investigate local electronic states and magnetic ordering in nickel oxide (NiO) induced by substituting oxygen (O) with nitrogen (N). Each N introduces an additional N 2p hole and modifies the magnetic moment of a neighboring nickel (Ni) cation site, as the exchange interaction between this hole and the Ni eg electrons exceeds the Ni-O-Ni superexchange interaction. This leads to the formation of Ni-N-Ni centers consisting of five spins, without perturbing the antiferromagnetic NiO lattice. These centers are studied using density functional theory and confirmed through high-resolution spectroscopy on N-substituted NiO thin films grown by molecular beam epitaxy. This type of magnetic design may enable future advances in quantum technologies based on strongly correlated materials, such as quantum sensors and spin-based qubits.
title Magnetic Ni-N-Ni Centers in N-substituted NiO
topic Strongly Correlated Electrons
url https://arxiv.org/abs/2412.19250