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Main Authors: Varbaro, Lucia, Korosec, Lukas, Hsu, Chih-Ying, Alexander, Duncan T. L., Torruella, Pau, Thibault, Clémentine, Piot, Benjamin A., Boeuf, David Le, Martin, Javier Herrero, Li, Weibin, Stylianidis, Evgenios, Gibert, Marta, Gabay, Marc, Triscone, Jean-Marc
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2601.19473
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author Varbaro, Lucia
Korosec, Lukas
Hsu, Chih-Ying
Alexander, Duncan T. L.
Torruella, Pau
Thibault, Clémentine
Piot, Benjamin A.
Boeuf, David Le
Martin, Javier Herrero
Li, Weibin
Stylianidis, Evgenios
Gibert, Marta
Gabay, Marc
Triscone, Jean-Marc
author_facet Varbaro, Lucia
Korosec, Lukas
Hsu, Chih-Ying
Alexander, Duncan T. L.
Torruella, Pau
Thibault, Clémentine
Piot, Benjamin A.
Boeuf, David Le
Martin, Javier Herrero
Li, Weibin
Stylianidis, Evgenios
Gibert, Marta
Gabay, Marc
Triscone, Jean-Marc
contents The breakthrough discovery of superconductivity in infinite-layer nickelates, and subsequently in several superconducting nickelates with more complex layered structures, capped a search spanning more than two decades and opened an entirely new field of research. Significant efforts aim to increase the critical temperature, to determine the electronic structure of the system, the underlying pairing mechanism, and the similarities between this system and cuprates - Ni1+ in infinite-layer nickelates being isoelectronic to Cu2+ in high-Tc cuprates. Here, we explore the unique role of magnetic rare earth ions in superconducting Eu-doped NdNiO2. We show that the field-induced re-entrant superconductivity which we evidence in this compound is the result of a delicate balance between the competing effects of the Eu2+ and Nd3+ ions. Our analyses of the extraordinary Hall effect and modeling of the superconducting critical fields demonstrate that the influence of these ions on magneto-transport is only felt when they are polarized by a magnetic field.
format Preprint
id arxiv_https___arxiv_org_abs_2601_19473
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Paramagnetically driven superconducting re-entrance in Eu-doped infinite layer nickelates
Varbaro, Lucia
Korosec, Lukas
Hsu, Chih-Ying
Alexander, Duncan T. L.
Torruella, Pau
Thibault, Clémentine
Piot, Benjamin A.
Boeuf, David Le
Martin, Javier Herrero
Li, Weibin
Stylianidis, Evgenios
Gibert, Marta
Gabay, Marc
Triscone, Jean-Marc
Superconductivity
The breakthrough discovery of superconductivity in infinite-layer nickelates, and subsequently in several superconducting nickelates with more complex layered structures, capped a search spanning more than two decades and opened an entirely new field of research. Significant efforts aim to increase the critical temperature, to determine the electronic structure of the system, the underlying pairing mechanism, and the similarities between this system and cuprates - Ni1+ in infinite-layer nickelates being isoelectronic to Cu2+ in high-Tc cuprates. Here, we explore the unique role of magnetic rare earth ions in superconducting Eu-doped NdNiO2. We show that the field-induced re-entrant superconductivity which we evidence in this compound is the result of a delicate balance between the competing effects of the Eu2+ and Nd3+ ions. Our analyses of the extraordinary Hall effect and modeling of the superconducting critical fields demonstrate that the influence of these ions on magneto-transport is only felt when they are polarized by a magnetic field.
title Paramagnetically driven superconducting re-entrance in Eu-doped infinite layer nickelates
topic Superconductivity
url https://arxiv.org/abs/2601.19473