Spintronics – A mini review

Over the last decade, the construction and analysis of spintronic devices have been explored. This mini-review focuses on the basic spintronic phenomena such as giant magnetoresistance, tunnel magnetoresistance, spin transfer torque, spin Hall effect, spin Seebeck effect and BGKC (Bruno – Gnanasekar...

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Published inSuperlattices and microstructures Vol. 136; p. 106322
Main Authors Chandrasekar, L. Bruno, Gnanasekar, K., Karunakaran, M.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2019
Subjects
Heterostructure
Spin FET
Spin seebeck effect
Spin transfer torque
Heterostructure
Spin seebeck effect
Spin FET
Spin transfer torque
Online AccessGet full text
ISSN0749-6036
1096-3677
DOI10.1016/j.spmi.2019.106322

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Abstract Over the last decade, the construction and analysis of spintronic devices have been explored. This mini-review focuses on the basic spintronic phenomena such as giant magnetoresistance, tunnel magnetoresistance, spin transfer torque, spin Hall effect, spin Seebeck effect and BGKC (Bruno – Gnanasekar – Karunakaran – Chandramohan) observation. The mechanism of spin-orbit interaction is theoretically discussed. The in-plane wave vector, magnetic field, bias voltage and the delta potential are influenced on spin-polarized transport in heterostructures. The comparison between the role of Dresselhaus and Rashba spin-orbit interaction in the heterostructure is investigated. The principle of spintronic devices (sensors, magnetic random access memory, unipolar spin diode, spin photodiode, spin LED, spin solar cell, spin FET) and spintronic instruments (spin SEM, spin STM) are also explained. •This mini-review focuses on the basic spintronic phenomena.•The mechanism of Dresselhaus and Rashba spin-orbit interactions are discussed.•The effects of the in-plane wave vector, external field on spin-polarized transport are discussed.•The principles of spintronic devices and instruments are explained.
AbstractList Over the last decade, the construction and analysis of spintronic devices have been explored. This mini-review focuses on the basic spintronic phenomena such as giant magnetoresistance, tunnel magnetoresistance, spin transfer torque, spin Hall effect, spin Seebeck effect and BGKC (Bruno – Gnanasekar – Karunakaran – Chandramohan) observation. The mechanism of spin-orbit interaction is theoretically discussed. The in-plane wave vector, magnetic field, bias voltage and the delta potential are influenced on spin-polarized transport in heterostructures. The comparison between the role of Dresselhaus and Rashba spin-orbit interaction in the heterostructure is investigated. The principle of spintronic devices (sensors, magnetic random access memory, unipolar spin diode, spin photodiode, spin LED, spin solar cell, spin FET) and spintronic instruments (spin SEM, spin STM) are also explained. •This mini-review focuses on the basic spintronic phenomena.•The mechanism of Dresselhaus and Rashba spin-orbit interactions are discussed.•The effects of the in-plane wave vector, external field on spin-polarized transport are discussed.•The principles of spintronic devices and instruments are explained.
ArticleNumber 106322
Author Gnanasekar, K.
Karunakaran, M.
Chandrasekar, L. Bruno
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  surname: Karunakaran
  fullname: Karunakaran, M.
  organization: Department of Physics, Alagappa Govt.Arts College, Karaikudi, 630003, India
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Keywords Heterostructure
Spin seebeck effect
Spin FET
Spin transfer torque
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Snippet Over the last decade, the construction and analysis of spintronic devices have been explored. This mini-review focuses on the basic spintronic phenomena such...
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SubjectTerms Heterostructure
Spin FET
Spin seebeck effect
Spin transfer torque
Title Spintronics – A mini review
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