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Main Authors: Lisik, Juliana, Rojas, Manuel, Myrtle, Spencer, Ryan, Dominic H., Hübner, René, Omelchenko, Pavlo, Abert, Claas, Ducevic, Amil, Suess, Dieter, Soldatov, Ivan, Schaefer, Rudolf, Seyd, Johannes, Albrecht, Manfred, Girt, Erol
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2407.17575
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author Lisik, Juliana
Rojas, Manuel
Myrtle, Spencer
Ryan, Dominic H.
Hübner, René
Omelchenko, Pavlo
Abert, Claas
Ducevic, Amil
Suess, Dieter
Soldatov, Ivan
Schaefer, Rudolf
Seyd, Johannes
Albrecht, Manfred
Girt, Erol
author_facet Lisik, Juliana
Rojas, Manuel
Myrtle, Spencer
Ryan, Dominic H.
Hübner, René
Omelchenko, Pavlo
Abert, Claas
Ducevic, Amil
Suess, Dieter
Soldatov, Ivan
Schaefer, Rudolf
Seyd, Johannes
Albrecht, Manfred
Girt, Erol
contents The structural and magnetic properties of sputter-deposited Fe$_{100-x}$Ru$_x$ films were studied for $x \leq 50$. The crystal structure of Fe$_{100-x}$Ru$_x$ is shown to be predominantly body-centered cubic for $x<13$ and to undergo a gradual transition to hexagonal close-packed in the concentration range $13 \lesssim x \lesssim 20$. Magnetic measurements indicate that the addition of Ru induces a noncollinear magnetic order in the body-centered cubic FeRu alloys, while the hexagonal close-packed FeRu alloys exhibit paramagnetic behavior. Increasing the Ru concentration in body-centered cubic FeRu alloys decreases the size of magnetic domains, approaching the size of magnetic grains. A simple atomistic model was used to show that antiferromagnetic coupling of Fe atoms across Ru atoms can be responsible for inducing noncollinear order in the FeRu cubic structures. Magnetic multilayer structures used in thin-film magnetic devices make extensive use of both Fe and Ru layers. Our results reveal that the presence of even a small amount of Ru in Fe influences the magnetic order of Fe, which could impact the performance of these devices.
format Preprint
id arxiv_https___arxiv_org_abs_2407_17575
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Transition from ferromagnetic to noncollinear to paramagnetic state with increasing Ru concentration in FeRu films
Lisik, Juliana
Rojas, Manuel
Myrtle, Spencer
Ryan, Dominic H.
Hübner, René
Omelchenko, Pavlo
Abert, Claas
Ducevic, Amil
Suess, Dieter
Soldatov, Ivan
Schaefer, Rudolf
Seyd, Johannes
Albrecht, Manfred
Girt, Erol
Materials Science
The structural and magnetic properties of sputter-deposited Fe$_{100-x}$Ru$_x$ films were studied for $x \leq 50$. The crystal structure of Fe$_{100-x}$Ru$_x$ is shown to be predominantly body-centered cubic for $x<13$ and to undergo a gradual transition to hexagonal close-packed in the concentration range $13 \lesssim x \lesssim 20$. Magnetic measurements indicate that the addition of Ru induces a noncollinear magnetic order in the body-centered cubic FeRu alloys, while the hexagonal close-packed FeRu alloys exhibit paramagnetic behavior. Increasing the Ru concentration in body-centered cubic FeRu alloys decreases the size of magnetic domains, approaching the size of magnetic grains. A simple atomistic model was used to show that antiferromagnetic coupling of Fe atoms across Ru atoms can be responsible for inducing noncollinear order in the FeRu cubic structures. Magnetic multilayer structures used in thin-film magnetic devices make extensive use of both Fe and Ru layers. Our results reveal that the presence of even a small amount of Ru in Fe influences the magnetic order of Fe, which could impact the performance of these devices.
title Transition from ferromagnetic to noncollinear to paramagnetic state with increasing Ru concentration in FeRu films
topic Materials Science
url https://arxiv.org/abs/2407.17575