Spin-polarized electron tunneling across magnetic dielectric

Abstract: This letter deals with a magnetic tunnel junction having spin filtering by a magnetic barrier. We performed experiments in which a relatively strong external field rotates magnetizations of both ferromagnetic electrodes in the tunnel junction with the magnetic barrier simultaneously so that the two are always parallel to each other. The tunnel magnetoresistance induced in this way was over 16% at 300 K. The angular dependency of the tunnel current on the layer magnetizations indicates that the barrier contains… Show more

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traditional wholly ferromagnetic (FM) spintronic devices. The fast-evolving fi eld of antiferromagnetic spintronics is being pursued on many fronts, Núñez et al studied spin torque and giant magnetoresistance (MR) in antiferromagnetic metals, [ 4 ] Hals et al derived a phenomenological theory for current-induced dynamics in antiferromagnets, [ 5 ] and Shvets et al [ 6 ] and Chshiev and co-workers [ 7 ] discussed the use of an antiferromagnetic dielectric layer as a tunneling barrier. The fast-evolving fi eld of antiferromagnetic spintronics is being pursued on many fronts, Núñez et al studied spin torque and giant magnetoresistance (MR) in antiferromagnetic metals, [ 4 ] Hals et al derived a phenomenological theory for current-induced dynamics in antiferromagnets, [ 5 ] and Shvets et al [ 6 ] and Chshiev and co-workers [ 7 ] discussed the use of an antiferromagnetic dielectric layer as a tunneling barrier.

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“…[1][2][3] The reduced stray fi elds and faster spin dynamics of antiferomagnitic elements would allow further miniaturization with less cross-talk leading to faster higher density memory. The fast-evolving fi eld of antiferromagnetic spintronics is being pursued on many fronts, Núñez et al studied spin torque and giant magnetoresistance (MR) in antiferromagnetic metals, [ 4 ] Hals et al derived a phenomenological theory for current-induced dynamics in antiferromagnets, [ 5 ] and Shvets et al [ 6 ] and Chshiev and co-workers [ 7 ] discussed the use of an antiferromagnetic dielectric layer as a tunneling barrier. More recently theoretical studies have been supported and complemented by steady experimental progress, the antiferromagnetic material IrMn has been utilized in demonstrating the possibility of producing a 100% spin-valve-like signal in an IrMnbased tunnel junction [ 8 ] and in the electrical measurement of antiferromagnetic moments in IrMn/NiFe stacks.…”

Anomalous Anisotropic Magnetoresistance of Antiferromagnetic Epitaxial Bimetallic Films: Mn₂Au and Mn₂Au/Fe Bilayers

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wileyonlinelibrary.com

traditional wholly ferromagnetic (FM) spintronic devices. The fast-evolving fi eld of antiferromagnetic spintronics is being pursued on many fronts, Núñez et al studied spin torque and giant magnetoresistance (MR) in antiferromagnetic metals, [ 4 ] Hals et al derived a phenomenological theory for current-induced dynamics in antiferromagnets, [ 5 ] and Shvets et al [ 6 ] and Chshiev and co-workers [ 7 ] discussed the use of an antiferromagnetic dielectric layer as a tunneling barrier. The fast-evolving fi eld of antiferromagnetic spintronics is being pursued on many fronts, Núñez et al studied spin torque and giant magnetoresistance (MR) in antiferromagnetic metals, [ 4 ] Hals et al derived a phenomenological theory for current-induced dynamics in antiferromagnets, [ 5 ] and Shvets et al [ 6 ] and Chshiev and co-workers [ 7 ] discussed the use of an antiferromagnetic dielectric layer as a tunneling barrier.

…”

“…[1][2][3] The reduced stray fi elds and faster spin dynamics of antiferomagnitic elements would allow further miniaturization with less cross-talk leading to faster higher density memory. The fast-evolving fi eld of antiferromagnetic spintronics is being pursued on many fronts, Núñez et al studied spin torque and giant magnetoresistance (MR) in antiferromagnetic metals, [ 4 ] Hals et al derived a phenomenological theory for current-induced dynamics in antiferromagnets, [ 5 ] and Shvets et al [ 6 ] and Chshiev and co-workers [ 7 ] discussed the use of an antiferromagnetic dielectric layer as a tunneling barrier. More recently theoretical studies have been supported and complemented by steady experimental progress, the antiferromagnetic material IrMn has been utilized in demonstrating the possibility of producing a 100% spin-valve-like signal in an IrMnbased tunnel junction [ 8 ] and in the electrical measurement of antiferromagnetic moments in IrMn/NiFe stacks.…”

Anomalous Anisotropic Magnetoresistance of Antiferromagnetic Epitaxial Bimetallic Films: Mn₂Au and Mn₂Au/Fe Bilayers

“…Antiferromagnets are attractive for spintronics because they offer insensitivity to magnetic field perturbations, produce no perturbing stray fields, are readily compatible with metal, semiconductor, or insulator electronic structure, can act as a magnetic memory, and can generate large magnetotransport effects [6][7][8]. For example, two distinct stable states of an AFM with orthogonal AFM spin-axis directions were set in an FeRh Ohmic resistor and shown to be insensitive to fields as high as 9 T at ambient conditions [9].…”

Relativistic Néel-Order Fields Induced by Electrical Current in Antiferromagnets

“…9,10 Another potential route for injecting spin polarized carriers into semiconductors is by using ferromagnetic tunnel barriers, which can act as a spin filter and allow only one kind of spin to tunnel into the semiconductor. [11][12][13][14][15] The feasibility of spin dependent tunneling has been demonstrated using europium chalcogenides (EuX, X: O, S, Se). 16,17 However, europium chalcogenides exhibit a T c that is much lower than room temperature, making them useless for practical device applications.…”

Magnetic characteristics of phase-separated CeO2:Co thin films