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Friday, May 15, 2020 | History

5 edition of Spin dependent transport in magnetic nanostructures found in the catalog.

Spin dependent transport in magnetic nanostructures

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  • 27 Currently reading

Published by CRC Press in Boca Raton .
Written in English

    Subjects:
  • Nanostructures -- Magnetic properties.,
  • Spintronics.,
  • Magnetoresistance.,
  • Thin films, Multilayered -- Magnetic properties.,
  • Nanostructures.,
  • Électrons -- Transport.,
  • Effet tunnel.,
  • Magnétorésistance.,
  • Électronique de spin.

  • Edition Notes

    Includes bibliographical references and index.

    Statementedited by Sadamichi Maekawa and Teruya Shinjo.
    SeriesAdvances in condensed matter science ;, v. 3
    ContributionsMaekawa, S. 1946-, Shinjō, Teruya, 1938-
    Classifications
    LC ClassificationsQC176.8.N35 S66 2002
    The Physical Object
    Paginationx, 282 p. :
    Number of Pages282
    ID Numbers
    Open LibraryOL3437138M
    ISBN 100415272262
    LC Control Number2005283133
    OCLC/WorldCa48678327

      Magnetic nanostructures amplitude of the excitation linear- and non-linear magnetic responses which are described by the field- and frequency-dependent magnetic susceptibility tensor χ can be monitored. , however due to spin relaxation in the Gold spacer layer the amplitude is reduced by 70 % compared to ballistic spin transport, (c.f. In quasi‐classical theoretical framework, the transport of electrons and holes in semiconductor devices is treated with the Boltzmann transport equation (BTE) or quantum‐mechanical energy band theory—viz., the effective mass approximation and the random phase approximation. On the other hand, in the mesoscopic, nanoelectronic devices, for three‐ and lower‐ dimensional structures with Author: Khine Nyunt.

    Concepts in Spin Electronics ed. S. Maekawa (Oxford University Press, /3) Physics of Transition Metal Oxides S. Maekawa, T. Tohyama, S.E. Barnes, S. Ishihara, W. Koshibae and G. Khaliullin (Springer, /6) Spin Dependent Transport in Magnetic Nanostructures eds. S. Maekawa and (Taylor & Francis London and New York. Magnetic Nanostructures: Spin Dynamics and Spin Transport Jürgen Lindner, Daniel E. Bürgler, Stéphane Mangin (auth.), Hartmut Zabel, Michael Farle (eds.) Nanomagnetism and spintronics is a rapidly expanding and increasingly important field of research with many applications already on the market and many more to be expected in the near.

      Spintronics Handbook, Second Edition offers an update on the single most comprehensive survey of the two intertwined fields of spintronics and magnetism, covering the diverse array of materials and structures, including silicon, organic semiconductors, carbon nanotubes, graphene, and engineered nanostructures. It focuses on seminal pioneering work, together with the latest in Author: Evgeny Y. Tsymbal, Igor Žutić. The spin-orbit interaction is an essential ingredient to access, excite and stabilize magnetic textures and their dynamics. As structures approach the nanometer scale, new challenges arise due to the increased role of internal interfaces and contacts to the outside world and novel emerging quantum effects.


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Spin dependent transport in magnetic nanostructures Download PDF EPUB FB2

Spin Dependent Transport in Magnetic Nanostructures - CRC Press Book In magnetic systems of nano-meter size, the interplay between spin and charge of electrons provides unique transport phenomena. In magnetic superlattices, magnetic and non-magnetic metallic thin films with thickness of the order of one nano-meter are piled-up alternately.

In magnetic superlattices, magnetic and non-magnetic metallic thin films with thickness of the order of one nano-meter are piled-up alternately. Since the discovery of giant magnetoresistance (GMR) in these superlattices inspin dependent transport phenomena in magnetic nanostructures have received much attention from both academic and.

Edited by two of the world's leading authorities, Spin Dependent Transport in Magnetic Nanostructures introduces and explains the basic physics and applications of a variety of spin-dependent transport phenomena in Spin dependent transport in magnetic nanostructures book nanostructures with particular emphasis on magnetic multilayers and magnetic tunnel by: Get this from a library.

Spin dependent transport in magnetic nanostructures. [S Maekawa; Teruya Shinjō;] -- "This book introduces and explains the basic physics and applications of a variety of spin-dependent transport phenomena in magnetic nanostructures with.

Get this from a library. Spin dependent transport in magnetic nanostructures. [S Maekawa; Teruya Shinjō;] -- In magnetic systems of nano-meter size, the interplay between spin and charge of electrons provides unique transport phenomena. In magnetic superlattices, magnetic.

The phenomena also depend on the geometry of the devices. Spin-dependent transport in magnetic nanostructures is based on the physics of the interaction between spin and charge.

In this sense, the spin–charge separation of electrons is a starting point for the physics of by: Spin-polarized tunneling plays an important role in the spin-dependent transport of magnetic nanostructures [23]. The spin-polarized electron injected from ferromagnetic materials into Author: S.

Maekawa. ELSEVIER Journal of Magnetism and Magnetic Materials () Invited paper ~i~i~i Journal of magnetism and magnetic materials Spin-dependent transport in magnetic nanostructures S. Maekawa *, J.

Inoue Department of Applied Physics, Nagoya by: Spin Dependent Transport In Magnetic Nanostructures In magnetic systems of nano-meter size, the interplay between spin and charge of electrons provides unique transport phenomena. In magnetic superlattices, magnetic and non-magnetic metallic thin films with thickness of the order of one nano-meter are piled-up alternately.

Handbook of Spin Transport and Magnetism provides a comprehensive, balanced account of the state of the art in the field known as spin electronics or spintronics.

It reveals how key phenomena first discovered in one class of materials, such as spin injection in metals, have been revisited decades later in other materials systems, including Price: $ Thermodynamic description of heat and spin transport in magnetic nanostructures Article (PDF Available) in Physical Review B 73(2) January with 62 Reads How we measure 'reads'.

In magnetic superlattices, magnetic and non-magnetic metallic thin films with thickness of the order of one nano-meter are piled-up alternately. This book introduces and explains the basic physics and applications of a variety of spin-dependent transport phenomena in magnetic nanostructures with particular emphasis on magnetic multilayers and.

Handbook of Spin Transport and Magnetism provides a comprehensive, balanced account of the state of the art in the field known as spin electronics or spintronics. It reveals how key phenomena first discovered in one class of materials, such as spin injection in metals, have been revisited decades later in other materials systems, including.

Spin-Transport and Transfer in Magnetic Nanostructures Tutorial #6: Nanomagnetism: Manufacture, physics, devices, and modeling, March 9, Department of Physics, New York University ANDREW D. KENT 1 Outline I.

Spin-Transport and Transfer Basics –Giant magnetoresistance (GMR) –Spin filtering and spin momentum transfer II. Book Description. In the past several decades, the research on spin transport and magnetism has led to remarkable scientific and technological breakthroughs, including Albert Fert and Peter Grünberg’s Nobel Prize-winning discovery of giant magnetoresistance (GMR) in magnetic metallic multilayers.

spin-dependent transport equations in a device with arbitrary interface resistance from a metallic-contact to tunneling regime, and obtain the conditions for efficient spin injection, accumulation, and transport in the device.

In a device containing a superconductor (F1/S/F2), the effect of superconductivity on the spin transport is investigated. Edited by two of the world's leading authorities, Spin Dependent Transport in Magnetic Nanostructures introduces and explains the basic physics and applications of a variety of spin-dependent transport phenomena in magnetic nanostructures with particular emphasis on magnetic multilayers and magnetic tunnel junctions.

Spin transport and current induced magnetization dynamics in magnetic nanostructures. A DISSERTATION SUBMITTED TO THE FACULTY OF THE GRADUATE SCHOOL OF THE UNIVERSITY OF MINNESOTA BY Xi Chen IN PARTIAL FULFILLMENT OF THE REQUIREMENTS FOR THE DEGREE OF DOCTOR OF PHILOSOPHY Randall H.

Victora, Adviser October, File Size: 3MB. After an education at the Ecole Normale Superieure and in the University of Paris VI, France, he has obtained a PhD in the field of nuclear magnetic resonance. His interest is focused on nanomagnetism, spin dynamics in nanometric objects, spin-dependent electronic transport in nanostructures, biomagnetism and spin electronics based magnetic.

With GMR, the resistance of a magnetic multilayer is affected by the relative orientation of its magnetic layers due to (electron) spin dependent scattering. For the STT effect, a spin-polarized electric current is used to alter the magnetic state of a ferromagnet.

The spin transport through and near interfaces have been studied in magnet/normal metal-based multilayer magnetic nanostructures in magnetostatic and magneto-dynamic cases.

Its features and accompanying effects, such as the magnetoresistance or the magnetic precession-induced spin pumping and spin accumulation in adjacent normal metal, are Author: A. M. Korostil, M. M. Krupa.electronic transport molecular devices Kondo resonance Interference spin-dependent transport magnetic nanostructures This is a preview of subscription content, log in to check access.

PreviewAuthor: Bogdan R. Bułka, Tomasz Kostyrko, Stanisław Lipiński, Piotr Stefański.Spin-dependent transport in nanostructures Candidato Dr. Dario Bercioux eration of devices combining standard microelectronics with spin-dependent e ects that arise from the interaction between spin of the carrier and the magnetic properties of the materials.

Traditional approaches to using spin.