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Autores principales: Cespedes, Oscar, Vasili, Hari B., Rogers, Matthew, Keatley, Paul S., Ali, Manan, Hickey, Bryan, Hicken, Robert J.
Formato: Preprint
Publicado: 2025
Materias:
Acceso en línea:https://arxiv.org/abs/2509.13870
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author Cespedes, Oscar
Vasili, Hari B.
Rogers, Matthew
Keatley, Paul S.
Ali, Manan
Hickey, Bryan
Hicken, Robert J.
author_facet Cespedes, Oscar
Vasili, Hari B.
Rogers, Matthew
Keatley, Paul S.
Ali, Manan
Hickey, Bryan
Hicken, Robert J.
contents The magnetisation dynamics of yttrium iron garnet (Y3Fe5O12, YIG) are key to the operation of spintronic and microwave devices. Here, we report a pathway to manipulate the frequency, damping and absorption of YIG thin films via interface coupling. The growth on YIG of PtMn, a metallic antiferromagnet, leads to a power dependence of the oscillation frequency and an increased linewidth at low fields. In gadolinium iron garnet/YIG film bilayers, the two films couple antiferromagnetically at low temperatures and there is a strong damping of the magnetisation dynamics that is further enhanced at the spin-flop field, suppressing the FMR signal. When combining both GdIG and PtMn interfaces, we can tune the exponent of the power dependence of frequency with field and achieve an almost complete quenching of the magnetisation dynamics over a range of fields/frequencies due to non-collinear magnetic order. These effects offer a means to tune and suppress magnetisation dynamics for frequency filters, magnonics, spin pumping and other applications.
format Preprint
id arxiv_https___arxiv_org_abs_2509_13870
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Tuning and Suppression of YIG Magnetisation Dynamics via Antiferromagnetic Interface Coupling
Cespedes, Oscar
Vasili, Hari B.
Rogers, Matthew
Keatley, Paul S.
Ali, Manan
Hickey, Bryan
Hicken, Robert J.
Materials Science
The magnetisation dynamics of yttrium iron garnet (Y3Fe5O12, YIG) are key to the operation of spintronic and microwave devices. Here, we report a pathway to manipulate the frequency, damping and absorption of YIG thin films via interface coupling. The growth on YIG of PtMn, a metallic antiferromagnet, leads to a power dependence of the oscillation frequency and an increased linewidth at low fields. In gadolinium iron garnet/YIG film bilayers, the two films couple antiferromagnetically at low temperatures and there is a strong damping of the magnetisation dynamics that is further enhanced at the spin-flop field, suppressing the FMR signal. When combining both GdIG and PtMn interfaces, we can tune the exponent of the power dependence of frequency with field and achieve an almost complete quenching of the magnetisation dynamics over a range of fields/frequencies due to non-collinear magnetic order. These effects offer a means to tune and suppress magnetisation dynamics for frequency filters, magnonics, spin pumping and other applications.
title Tuning and Suppression of YIG Magnetisation Dynamics via Antiferromagnetic Interface Coupling
topic Materials Science
url https://arxiv.org/abs/2509.13870