Antiferromagnetic beneficial effect and development of epitoxial bicillic antiferromagnes — two routes towards next-generation spintronics (Q84261): Difference between revisions

From EU Knowledge Graph
Jump to navigation Jump to search
(‎Changed an Item)
(‎Changed an Item)
Property / fund
 
Property / fund: European Regional Development Fund / rank
 
Normal rank

Revision as of 10:14, 7 June 2020

Project in Poland financed by DG Regio
Language Label Description Also known as
English
Antiferromagnetic beneficial effect and development of epitoxial bicillic antiferromagnes — two routes towards next-generation spintronics
Project in Poland financed by DG Regio

    Statements

    0 references
    787,310.0 zloty
    0 references
    188,954.4 Euro
    13 January 2020
    0 references
    787,310.0 zloty
    0 references
    188,954.4 Euro
    13 January 2020
    0 references
    100.0 percent
    0 references
    1 March 2018
    0 references
    29 February 2020
    0 references
    AKADEMIA GÓRNICZO-HUTNICZA IM. STANISŁAWA STASZICA W KRAKOWIE
    0 references
    The main active components of spintronic elements are ferromagnets (FMs), in which a net spin polarization is responsible for logical zeros and ones. Antiferromagnets (AFMs), in which magnetic order is accompanied by a zero net magnetic moment, play an important role in the spin-valve effect by establishing direction of FM reference layer via an exchange bias effect. However, recent demonstration of magneto-transport effects in AFMs and their ultrafast magnetization dynamics make them potential candidates that could replace FMs in spintronic devices. In this project I propose two routes that will lead to development of antiferromagnetic spintronics. The first one is focused on tuning magnetic properties of AFMs via proximity effect in AFM/AFM bilayers. The second path concentrates on the epitaxial bimetallic AFMs. In both paths the feasibility of AFM spintronics with studied AFM materials will be presented. (Polish)
    0 references
    The main components of parent agents are responsible for the biological workers and ones.Antiferromagnes (AFMs), in whim magnetic order is accompaned and zero net magnetic timing, play roles in the spin off effect effect by establishing directive of FM as effective effect.Hwever, a demonstration of a demonstration of magneto-transport effects in AFMs and their ultra-fast magnetisation dynamic magnetisation provide that could replace FMS in spinetoram practices.In this project I two respects that will lead to development of anti-ferromagnetic spinics.The first is based on training activities of AFMs via proximites effecct in AFM/AFM billayers.The semamide concentrates on the epitoxial bicilicc AFMs.In the boh path, the feasibility of AFM spintronics with sound material will be requested. (English)
    0 references

    Identifiers

    POIR.04.04.00-00-3E5D/17
    0 references