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Autores principales: Fowlie, Jennifer, Mundet, Bernat, Puggioni, Danilo, Bhatt, Lopa, Hoglund, Eric R., Kim, Woo Jin, Li, Jiarui, Lee, Sang Jun, Liu, Wenchi, Devincenti, Antoine, Rondinelli, James M., Muller, David A., Hwang, Harold Y.
Formato: Preprint
Publicado: 2026
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Acceso en línea:https://arxiv.org/abs/2602.21455
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author Fowlie, Jennifer
Mundet, Bernat
Puggioni, Danilo
Bhatt, Lopa
Hoglund, Eric R.
Kim, Woo Jin
Li, Jiarui
Lee, Sang Jun
Liu, Wenchi
Devincenti, Antoine
Rondinelli, James M.
Muller, David A.
Hwang, Harold Y.
author_facet Fowlie, Jennifer
Mundet, Bernat
Puggioni, Danilo
Bhatt, Lopa
Hoglund, Eric R.
Kim, Woo Jin
Li, Jiarui
Lee, Sang Jun
Liu, Wenchi
Devincenti, Antoine
Rondinelli, James M.
Muller, David A.
Hwang, Harold Y.
contents A large challenge in determining the physics of helimagnetic SrFeO3 is in stabilizing the stoichiometric chemical phase over long enough time scales to conduct extensive measurements. Degradation in SrFeO3 manifests mainly as a crossover from metallic to insulating behavior. Using a combination of electronic transport and density functional theory, we show that this degradation is dominated by oxygen loss, possibly on the order of one percent. We further demonstrate that high quality SrFeO3 thin films can be stabilized long-term by combining a nanoscale band insulator capping layer with an ex situ ozone anneal. We show that this produces a nearly-pristine cation sublattice and preserves metallicity for at least several weeks. These results establish a reliable pathway for producing chemically stable SrFeO3 thin films, enabling reproducible studies of its unusual helimagnetism.
format Preprint
id arxiv_https___arxiv_org_abs_2602_21455
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Designing heterostructures to control oxygen stoichiometry in helimagnetic perovskite strontium ferrite
Fowlie, Jennifer
Mundet, Bernat
Puggioni, Danilo
Bhatt, Lopa
Hoglund, Eric R.
Kim, Woo Jin
Li, Jiarui
Lee, Sang Jun
Liu, Wenchi
Devincenti, Antoine
Rondinelli, James M.
Muller, David A.
Hwang, Harold Y.
Materials Science
A large challenge in determining the physics of helimagnetic SrFeO3 is in stabilizing the stoichiometric chemical phase over long enough time scales to conduct extensive measurements. Degradation in SrFeO3 manifests mainly as a crossover from metallic to insulating behavior. Using a combination of electronic transport and density functional theory, we show that this degradation is dominated by oxygen loss, possibly on the order of one percent. We further demonstrate that high quality SrFeO3 thin films can be stabilized long-term by combining a nanoscale band insulator capping layer with an ex situ ozone anneal. We show that this produces a nearly-pristine cation sublattice and preserves metallicity for at least several weeks. These results establish a reliable pathway for producing chemically stable SrFeO3 thin films, enabling reproducible studies of its unusual helimagnetism.
title Designing heterostructures to control oxygen stoichiometry in helimagnetic perovskite strontium ferrite
topic Materials Science
url https://arxiv.org/abs/2602.21455