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Main Authors: Gilbert, Dustin A., Im, Mi-Young, Liu, Kai, Fischer, Peter
Format: Preprint
Published: 2022
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Online Access:https://arxiv.org/abs/2210.05739
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author Gilbert, Dustin A.
Im, Mi-Young
Liu, Kai
Fischer, Peter
author_facet Gilbert, Dustin A.
Im, Mi-Young
Liu, Kai
Fischer, Peter
contents The first order reversal curve (FORC) method is a macroscopic measurement technique which can be used to extract quantitative, microscopic properties of hysteretic systems. Using magnetic transmission X-ray microscopy (MTXM), local element-specific FORC measurements are performed on a 20 nm thick film of CoTb. The FORCs measured with microscopy reveal a step-by-step domain evolution under the magnetic field cycling protocol, and provide a direct visualization of the mechanistic interpretation of FORC diagrams. They are compared with magnetometry FORCs and show good quantitative agreement. Furthermore, the high spatial resolution and element-specific sensitivity of MTXM provide new capabilities to measure FORCs on small regions or specific phases within multicomponent systems, including buried layers in heterostructures. The ability to perform FORCs on very small features is demonstrated with the MTXM-FORC measurement of a rectangular microstructure with vortex-like Landau structures. This work demonstrates the confluence of two uniquely powerful techniques to achieve quantitative insight into nanoscale magnetic behavior.
format Preprint
id arxiv_https___arxiv_org_abs_2210_05739
institution arXiv
publishDate 2022
record_format arxiv
spellingShingle Element-Specific First Order Reversal Curves Measured by Magnetic Transmission X-ray Microscopy
Gilbert, Dustin A.
Im, Mi-Young
Liu, Kai
Fischer, Peter
Materials Science
The first order reversal curve (FORC) method is a macroscopic measurement technique which can be used to extract quantitative, microscopic properties of hysteretic systems. Using magnetic transmission X-ray microscopy (MTXM), local element-specific FORC measurements are performed on a 20 nm thick film of CoTb. The FORCs measured with microscopy reveal a step-by-step domain evolution under the magnetic field cycling protocol, and provide a direct visualization of the mechanistic interpretation of FORC diagrams. They are compared with magnetometry FORCs and show good quantitative agreement. Furthermore, the high spatial resolution and element-specific sensitivity of MTXM provide new capabilities to measure FORCs on small regions or specific phases within multicomponent systems, including buried layers in heterostructures. The ability to perform FORCs on very small features is demonstrated with the MTXM-FORC measurement of a rectangular microstructure with vortex-like Landau structures. This work demonstrates the confluence of two uniquely powerful techniques to achieve quantitative insight into nanoscale magnetic behavior.
title Element-Specific First Order Reversal Curves Measured by Magnetic Transmission X-ray Microscopy
topic Materials Science
url https://arxiv.org/abs/2210.05739