A Recent Progress of Spintronics Devices for Integrated Circuit Applications

Endoh, Tetsuo; Honjo, Haruo

doi:10.3390/jlpea8040044

Cited by 53 publications

(29 citation statements)

References 91 publications

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“…1 These materials exhibit distinctive characteristics in the vicinity of Fermi level, depicting metallic character in one of the spin channels while insulating or semiconducting behavior in other spin direction. These materials are being extensively scrutinized due to their possible applications in spintronics, magnetic tunnel junctions, magnetic random access memories, and other spin dependent devices.…”

Section: Introductionmentioning

confidence: 99%

“…These materials are being extensively scrutinized due to their possible applications in spintronics, magnetic tunnel junctions, magnetic random access memories, and other spin dependent devices. 1 These materials exhibit distinctive characteristics in the vicinity of Fermi level, depicting metallic character in one of the spin channels while insulating or semiconducting behavior in other spin direction. The band gap in one of the spin channels results in 100% spin polarization in the vicinity of Fermi level.…”

Section: Introductionmentioning

confidence: 99%

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Exploration of highly correlated Co‐based quaternary Heusler alloys for spintronics and thermoelectric applications

Seh

Gupta

2019

Int J Energy Res

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Summary The half‐metallic character of new quaternary Heusler alloys CoXMnAs (X = Ru, Rh) is established along with their thermoelectric, mechanical, and thermodynamic properties. The optimization of energy suggests that alloys are stable in Y2‐type structure with a ferromagnetic character. The electronic band profile through generalized gradient approximation and modified Becke‐Johnson potential indicates the metallic character of alloys. However, with inclusion of Hubbard potential to generalized gradient approximation, the alloys depict half‐metallic character with semiconducting nature in spin‐down state. The alloys possess high magnetic moment, CoRuMnAs has 5 μB, whereas CoRhMnAs has 6 μB, following Slater‐Pauling rule MT = ZT − 24. The narrow band gap in spin‐down channel enhances the thermoelectric properties. The maximum value for thermopower (|S|) obtained is 44.3 and 53.44 μV/K for CoRuMnAs and CoRhMnAs, respectively. The variation of electrical conductivity, Seebeck coefficient, and figure of merit affirm increasing trend with temperature, which is a good indication of materials to be used in thermoelectric technology. The mechanical stability along with ductile nature of alloys is determined through elastic constants. Further, we have calculated thermodynamic properties and have established their dependence on temperature and pressure using quasi‐harmonic Debye model. The half‐metallic nature with efficient thermoelectric parameters strongly supports the possible application of alloys for spin devices and green energy generation.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Exploration of highly correlated Co‐based quaternary Heusler alloys for spintronics and thermoelectric applications

Seh

Gupta

2019

Int J Energy Res

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“…6,7 Thus, the spin-based electronics are predictable to convey effective developments especially in the fields like information technology (mostly in spin torque transfer and memory devices). 8,9 HMF delivers 100% spin polarization presumed to promote the competence of spin-based instruments. 10,11 High thermoelectric efficient materials have become an interesting area for the researchers because of providing dynamic applications typically in a waste heat recovery system.…”

Section: Discussionmentioning

confidence: 99%

“…Among the half‐metallic ferromagnetic (HMF) are such materials which are being predictable by the investigators deliver broader applications typically in thermoelectrics and spintronics . Thus, the spin‐based electronics are predictable to convey effective developments especially in the fields like information technology (mostly in spin torque transfer and memory devices) . HMF delivers 100% spin polarization presumed to promote the competence of spin‐based instruments .…”

Section: Introductionmentioning

confidence: 99%

Exploration of electronic structure, mechanical stability, magnetism, and thermophysical properties of L2₁structured Co₂XSb (X = Sc and Ti) ferromagnets

Sofi

Gupta

2019

Int J Energy Res

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Summary The origin of half‐metallicity, structural, thermoelectric, elasto‐mechanical, and thermodynamic properties of Co2ScSb and Co2TiSb full‐Heuslers has been examined by full potential methods. Structural optimizations support the stability of both alloys in AlCu2Mn‐prototype with space symmetry of italicFm3¯m (#225) space group. The occurrence of perfect band occupation and interpretation of density of states through the modified version of the Becke Johnson (mBJ) scheme for both these Heusler systems delivers more precise and accurate results rather than GGA and GGA + U. The density of states and band occupation describes the semiconducting nature with an indirect band‐gap 1.08 eV for Co2ScSb and 1.32 eV Co2TiSb. Robustness of various elastic constants against external forces is checked to descripted stability of these alloys. The evaluation of elastic constants and its other associated mechanical constituents reveals ductile behavior along with high melting temperature. The thermoelectric coefficients are used to check the applicability of the material for waste heat recovery systems and technological purposes. Thermal parameters support the material's low anharmonicity and hence predict the stability of these alloys at the wide range of temperatures and pressure. The thermoelectric parameters pose its applications and stand to develop devices based on spintronics and thermoelectric purposes.

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“…Spintronics based devices are playing a prominent role in a wide-range of electronic 2 and low-power applications, especially owing to their success in Nonvolatile (NV) memory applications. 3 Spin based devices have also enabled new quantum computing and information processing techniques not feasible with more conventional charge based technologies. Especially, the integration of spintronics devices into integrated circuits opens the possibility for many other important applications of current technological interest.…”

Section: Introductionmentioning

confidence: 99%

On hysteresis based random number generation

Korman

Mayergoyz

2020

AIP Advances

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A Recent Progress of Spintronics Devices for Integrated Circuit Applications

Cited by 53 publications

References 91 publications

Exploration of highly correlated Co‐based quaternary Heusler alloys for spintronics and thermoelectric applications

Exploration of highly correlated Co‐based quaternary Heusler alloys for spintronics and thermoelectric applications

Exploration of electronic structure, mechanical stability, magnetism, and thermophysical properties of L2₁structured Co₂XSb (X = Sc and Ti) ferromagnets

On hysteresis based random number generation

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A Recent Progress of Spintronics Devices for Integrated Circuit Applications

Cited by 53 publications

References 91 publications

Exploration of highly correlated Co‐based quaternary Heusler alloys for spintronics and thermoelectric applications

Exploration of highly correlated Co‐based quaternary Heusler alloys for spintronics and thermoelectric applications

Exploration of electronic structure, mechanical stability, magnetism, and thermophysical properties of L21structured Co2XSb (X = Sc and Ti) ferromagnets

On hysteresis based random number generation

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Exploration of electronic structure, mechanical stability, magnetism, and thermophysical properties of L2₁structured Co₂XSb (X = Sc and Ti) ferromagnets