Exchange Coupling Interaction in L10-FePd/α-Fe Nanocomposite Magnets with Large Maximum Energy Products

Nanocomposite magnets (NCMs) consisting of hard and soft magnetic phases are expected to be instrumental in overcoming the current theoretical limit of magnet performance. In this study, structural analyses were performed on L10-FePd/α-Fe NCMs with various hard/soft volume fractions, which were form...

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Veröffentlicht in:ACS nano 2011-04, Vol.5 (4), p.2806-2814
Hauptverfasser: Sakuma, Noritsugu, Ohshima, Tsubasa, Shoji, Tetsuya, Suzuki, Yoshihito, Sato, Ryota, Wachi, Ayako, Kato, Akira, Kawai, Yoichiro, Manabe, Akira, Teranishi, Toshiharu
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container_issue 4
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container_title ACS nano
container_volume 5
creator Sakuma, Noritsugu
Ohshima, Tsubasa
Shoji, Tetsuya
Suzuki, Yoshihito
Sato, Ryota
Wachi, Ayako
Kato, Akira
Kawai, Yoichiro
Manabe, Akira
Teranishi, Toshiharu
description Nanocomposite magnets (NCMs) consisting of hard and soft magnetic phases are expected to be instrumental in overcoming the current theoretical limit of magnet performance. In this study, structural analyses were performed on L10-FePd/α-Fe NCMs with various hard/soft volume fractions, which were formed by annealing Pd/γ-Fe2O3 heterostructured nanoparticles and pure Pd nanoparticles. The sample with a hard/soft volume ratio of 82/18 formed by annealing at 773 K had the largest maximum energy product (BH max = 10.3 MGOe). In such a sample, the interface between the hard and soft phases was coherent and the phase sizes were optimized, both of which effectively induced exchange coupling. This exchange coupling was directly observed by visualizing the magnetic interaction between the hard and soft phases using a first-order reversal curve diagram, which is a valuable tool to improve the magnetic properties of NCMs.
doi_str_mv 10.1021/nn103286r
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title Exchange Coupling Interaction in L10-FePd/α-Fe Nanocomposite Magnets with Large Maximum Energy Products
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