Origin of the reduced exchange bias in an epitaxial FeNi(111)/CoO(111) bilayer

Radu, F.; Mishra, Shrawan; Zizak, Ivo; Erko, A.; Dürr, H. A.; Eberhardt, W.; Nowak, G.; Buschhorn, Stefan; Zabel, H.; Zhernenkov, Kirill; Wolff, M.; Schmitz, D.; Schierle, E.; Dudzik, E.; Feyerherm, R.

doi:10.1103/physrevb.79.184425

Cited by 44 publications

(37 citation statements)

References 54 publications

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“…S1, we show that the coercive and EB fields remain stable as a function of the loop index, demonstrating that a training effect is essentially absent. A magnetic multi-domain state in the pinning layer not only diminishes drastically the absolute value of the EB field but it also mediates a strong EB reduction upon consecutive cycling (training effect) 12,21 .…”

Section: Perpendicular Anisotropy With Ferrimagnetic Pinning Layermentioning

confidence: 99%

“…For instance, in an archetypal CoO/FM bilayer, neutron scattering has revealed the origin of reduced EB. It was shown to be related to the anisotropic domain state of the AF system 12 . Using soft X-ray techniques, the frozen and rotatable spins 12,14,15 were observed in several systems, leading to a deeper understanding of the enhanced coercivity and the origin of the EB for systems with uncompensated AF interfaces.…”

mentioning

confidence: 99%

“…Yet, these two magnetic components are difficult to access experimentally with laboratory tools because of a virtually vanishing magnetization of AF layers and a small volume of the magnetic interface. Important progress has been made by involving neutron and Xray techniques to study the bulk part of the pinning layer and the interfacial magnetism [6][7][8][9][10][11][12][13] . For instance, in an archetypal CoO/FM bilayer, neutron scattering has revealed the origin of reduced EB.…”

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confidence: 99%

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Perpendicular exchange bias in ferrimagnetic spin valves

et al. 2012

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The exchange bias effect refers to the shift of the hysteresis loop of a ferromagnet in direct contact to an antiferromagnet. For applications in spintronics a robust and tunable exchange bias is required. Here we show experimental evidence for a perpendicular exchange bias in a prototypical ferrimagnetic spin valve consisting of DyCo 5 /Ta/Fe 76 Gd 24 , where the DyCo 5 alloy has the role of a hard ferrimagnet and Fe 76 Gd 24 is a soft ferrimagnet. Taking advantage of the tunability of the exchange coupling between the ferrimagnetic layers by means of thickness variation of an interlayer spacer, we demonstrate that perpendicular unidirectional anisotropy can be induced with desirable absolute values at room temperature, without making use of a field-cooling procedure. moreover, the shift of the hysteresis loop can be reversed with relatively low magnetic fields of several hundred oersteds. This flexibility in controlling a robust perpendicular exchange bias at room temperature may be of crucial importance for applications.

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Section: Perpendicular Anisotropy With Ferrimagnetic Pinning Layermentioning

confidence: 99%

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Perpendicular exchange bias in ferrimagnetic spin valves

et al. 2012

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“…Despite a number of studies on the interesting individual spin behaviors, the various long-range effects, such as the lateral AF spin arrangement 9,10 and the AF bulk effect 11,12,13 , have not been fully investigated. Actually, such effects are quite critical especially in epitaxial samples where both structural coherence and magnetic ordering are optimized.…”

Section: Introductionmentioning

confidence: 99%

Field and temperature-driven magnetic reversal of spin-flop coupled epitaxial Fe/MnPd bilayers

Zhang

Krishnan

2013

Phys. Rev. B

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We studied field-and temperature-driven magnetic reversal of epitaxial spin-flop coupled Fe/MnPd bilayers. The onset temperatures for the spin-flop coupling, the loop shift, and the reversal asymmetry were found different for the same sample, indicating their sensitivity to different interface components. We show that the induced uniaxial anisotropy is a direct result of the spin-flop coupling, while the loop shift, observed along the bias, and the reversal asymmetry, measured perpendicular to the bias, are likely relevant to the local pinning environments and the remanence state of the ferromagnet. Further, the unidirectional bias can be manipulated by a controlled re-cooling process while keeping the spin-flop property unaffected. Finally, we experimentally reveal the temperature-driven magnetization transitions in the thermal hysteresis of the bilayers, and demonstrate the important role of competing energy terms on the observation of different types of thermal hysteresis behaviors.

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“…The possibility to control the state of coupled AF/FM bilayers requires investigation of the magnetic mechanisms that could be responsible for bias effect. Many researchers [2][3][4][5][6][7] emphasize the important role of the AF domain structure in the establishing of the exchange bias. The problem of AF domains is intimately related with magnetoelastic coupling [8] and can strongly depend upon the mechanical stress that appears at the FM/AF interface due to the lattice misfit.…”

Section: Introductionmentioning

confidence: 99%

The Anisotropy Induced by a Magnetostriction in Exchange-Biased Two-Layer Films

Gomonay¹,

Luk’yanchuk²

2016

Metallofiz. Noveishie Tekhnol.

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The exchange bias at ferromagnetic (FM)/antiferromagnetic (AF) interfaces strongly depends upon the state of antiferromagnetic layer, which is sensitive to mechanical stresses due to its strong magnetoelastic coupling. In a given paper, we consider magnetoelastic effects, which arise at FM/AF interface due to misfit of lattices and magnetic ordering. We show how magnetostriction affects mutual orientation of the AF and FM vectors as well as magnetic easy-axis direction in thin AF layer. The results obtained can be used for tailoring of exchange-biased systems.Величина обмінного підмагнетовування на межі поділу феромагнетик (ФМ)/антиферомагнетик (АФ) істотно залежить від стану антиферомагне-тного шару, який, завдяки сильним магнетопружнім взаємодіям, чутли-вий до механічних напружень. В даній роботі розглянуто магнетопружні ефекти, що виникають на межі поділу ФМ/АФ через ґратницеву невідпо-відність і магнетне впорядкування. Продемонстровано спосіб, в який маг-нетострикція впливає на взаємну орієнтацію АФ-і ФМ-векторів і на на-прямок легкої осі в тонкому АФ-шарі. Одержані результати можуть бути використаними при створенні систем з обмінним підмагнетовуванням.Величина обменного подмагничивания на границе раздела ферромагнетик (ФМ)/антиферромагнетик (АФ) существенно зависит от состояния анти-ферромагнитного слоя, который, благодаря сильным магнитоупругим взаимодействиям, чувствителен к механическим напряжениям. В данной статье рассмотрены магнитоупругие эффекты, возникающие на границе раздела ФМ/АФ из-за решёточного несоответствия и магнитного упорядо-чения. Показано, каким образом магнитострикция влияет на взаимную Металлофиз. новейшие технол. / Metallofiz. Noveishie Tekhnol. 2014, т. 36, № 11, сс. 1453-1463 Оттиски доступны непосредственно от издателя Фотокопирование разрешено только в соответствии с лицензией 2014 ИМФ (Институт металлофизики им. Г. В. Курдюмова НАН Украины) Напечатано в Украине. 1454O. V. GOMONAY and I. LUKYANCHUK ориентацию АФ-и ФМ-векторов и на направление лёгкой оси в тонком АФ-слое. Полученные результаты могут быть использованы при создании систем с обменным подмагничиванием.

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Origin of the reduced exchange bias in an epitaxial FeNi(111)/CoO(111) bilayer

Cited by 44 publications

References 54 publications

Perpendicular exchange bias in ferrimagnetic spin valves

Perpendicular exchange bias in ferrimagnetic spin valves

Field and temperature-driven magnetic reversal of spin-flop coupled epitaxial Fe/MnPd bilayers

The Anisotropy Induced by a Magnetostriction in Exchange-Biased Two-Layer Films

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