Proximity-induced flipped spin state in synthetic ferrimagnetic Pt/Co/Gd heterolayers

To develop new devices based on synthetic ferrimagnetic heterostructures, understanding the material’s physical properties is pivotal. Here, the induced magnetic moment (IMM), magnetic exchange coupling, and spin textures are investigated in Pt(1 nm)/Co(1.5 nm)/Gd(1 nm) multilayers using a multiscal...

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Veröffentlicht in:	Communications physics 2025-01, Vol.8 (1), p.22-12, Article 22
Hauptverfasser:	Brandão, Jeovani, Carvalho, Pamela C., Miranda, Ivan P., Mori, Thiago J. A., Béron, Fanny, Bergman, Anders, Petrilli, Helena M., Klautau, Angela B., Cezar, Julio C.
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Schlagworte:	639/301/1005/1008 639/766/119/997 Alloys Cobalt Coupling Density functional theory Dichroism Electrons Ferrimagnets Ferromagnetism Gadolinium Heterostructures Interfaces Magnetic fields Magnetic moments Magnetic properties Multilayered thin films Multilayers Multiscale analysis Physical properties Physics Physics and Astronomy Platinum Simulation Spin dynamics Superconductivity Temperature Thickness X ray microscopy
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creator	Brandão, Jeovani Carvalho, Pamela C. Miranda, Ivan P. Mori, Thiago J. A. Béron, Fanny Bergman, Anders Petrilli, Helena M. Klautau, Angela B. Cezar, Julio C.
description	To develop new devices based on synthetic ferrimagnetic heterostructures, understanding the material’s physical properties is pivotal. Here, the induced magnetic moment (IMM), magnetic exchange coupling, and spin textures are investigated in Pt(1 nm)/Co(1.5 nm)/Gd(1 nm) multilayers using a multiscale approach. The magnitude and direction of the IMM are interpreted in the framework of both X-ray magnetic circular dichroism and density functional theory. The IMM transferred by Co across the Gd paramagnetic thickness leads to a nontrivial flipped spin state (FSS) within the Gd layers, in which their magnetic moments couple antiparallel/parallel with the ferromagnetic Co near/far from the Co/Gd interface, respectively. The FSS depends on the magnetic field, which, on average, reduces the Gd magnetic moment as the field increases. For the Pt, in both Pt/Co and Gd/Pt interfaces, the IMM follows the same direction as the Co magnetic moment, with negligible IMM in the Gd/Pt interface. Additionally, zero-field spin spirals were imaged using scanning transmission X-ray microscopy, whereas micromagnetic simulations were employed to unfold the interactions, stabilizing the ferrimagnetic configurations, where the existence of a sizable Dzyaloshinskii-Moriya interaction is demonstrated to be crucial. Magnetic heterostructures are a platform to realize magnetic ordering that differs from the component layers, a prime example being synthetic ferrimagnets. Here, the authors use X-ray magnetic circular dichroism supported with a multiscale approach (density functional theory, atomistic spin dynamics and micromagnetic simulations) to investigate the induced magnetic moment, magnetic exchange-coupling and spin textures in the ferrimagnetically coupled Pt/Co/Gd heterostructures.
doi_str_mv	10.1038/s42005-025-01938-0
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The IMM transferred by Co across the Gd paramagnetic thickness leads to a nontrivial flipped spin state (FSS) within the Gd layers, in which their magnetic moments couple antiparallel/parallel with the ferromagnetic Co near/far from the Co/Gd interface, respectively. The FSS depends on the magnetic field, which, on average, reduces the Gd magnetic moment as the field increases. For the Pt, in both Pt/Co and Gd/Pt interfaces, the IMM follows the same direction as the Co magnetic moment, with negligible IMM in the Gd/Pt interface. Additionally, zero-field spin spirals were imaged using scanning transmission X-ray microscopy, whereas micromagnetic simulations were employed to unfold the interactions, stabilizing the ferrimagnetic configurations, where the existence of a sizable Dzyaloshinskii-Moriya interaction is demonstrated to be crucial. 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The IMM transferred by Co across the Gd paramagnetic thickness leads to a nontrivial flipped spin state (FSS) within the Gd layers, in which their magnetic moments couple antiparallel/parallel with the ferromagnetic Co near/far from the Co/Gd interface, respectively. The FSS depends on the magnetic field, which, on average, reduces the Gd magnetic moment as the field increases. For the Pt, in both Pt/Co and Gd/Pt interfaces, the IMM follows the same direction as the Co magnetic moment, with negligible IMM in the Gd/Pt interface. Additionally, zero-field spin spirals were imaged using scanning transmission X-ray microscopy, whereas micromagnetic simulations were employed to unfold the interactions, stabilizing the ferrimagnetic configurations, where the existence of a sizable Dzyaloshinskii-Moriya interaction is demonstrated to be crucial. Magnetic heterostructures are a platform to realize magnetic ordering that differs from the component layers, a prime example being synthetic ferrimagnets. 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A.</au><au>Béron, Fanny</au><au>Bergman, Anders</au><au>Petrilli, Helena M.</au><au>Klautau, Angela B.</au><au>Cezar, Julio C.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Proximity-induced flipped spin state in synthetic ferrimagnetic Pt/Co/Gd heterolayers</atitle><jtitle>Communications physics</jtitle><stitle>Commun Phys</stitle><date>2025-01-15</date><risdate>2025</risdate><volume>8</volume><issue>1</issue><spage>22</spage><epage>12</epage><pages>22-12</pages><artnum>22</artnum><issn>2399-3650</issn><eissn>2399-3650</eissn><abstract>To develop new devices based on synthetic ferrimagnetic heterostructures, understanding the material’s physical properties is pivotal. Here, the induced magnetic moment (IMM), magnetic exchange coupling, and spin textures are investigated in Pt(1 nm)/Co(1.5 nm)/Gd(1 nm) multilayers using a multiscale approach. The magnitude and direction of the IMM are interpreted in the framework of both X-ray magnetic circular dichroism and density functional theory. The IMM transferred by Co across the Gd paramagnetic thickness leads to a nontrivial flipped spin state (FSS) within the Gd layers, in which their magnetic moments couple antiparallel/parallel with the ferromagnetic Co near/far from the Co/Gd interface, respectively. The FSS depends on the magnetic field, which, on average, reduces the Gd magnetic moment as the field increases. For the Pt, in both Pt/Co and Gd/Pt interfaces, the IMM follows the same direction as the Co magnetic moment, with negligible IMM in the Gd/Pt interface. Additionally, zero-field spin spirals were imaged using scanning transmission X-ray microscopy, whereas micromagnetic simulations were employed to unfold the interactions, stabilizing the ferrimagnetic configurations, where the existence of a sizable Dzyaloshinskii-Moriya interaction is demonstrated to be crucial. Magnetic heterostructures are a platform to realize magnetic ordering that differs from the component layers, a prime example being synthetic ferrimagnets. 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subjects	639/301/1005/1008 639/766/119/997 Alloys Cobalt Coupling Density functional theory Dichroism Electrons Ferrimagnets Ferromagnetism Gadolinium Heterostructures Interfaces Magnetic fields Magnetic moments Magnetic properties Multilayered thin films Multilayers Multiscale analysis Physical properties Physics Physics and Astronomy Platinum Simulation Spin dynamics Superconductivity Temperature Thickness X ray microscopy
title	Proximity-induced flipped spin state in synthetic ferrimagnetic Pt/Co/Gd heterolayers
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