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Insulator Spintronics

Description du projet


FET-Open Xtrack

InSpin will develop revolutionary nano-scale insulator spintronics that can replace or be integrated with conventional electronics and function at ambient temperatures. The innovation lies in the use of spin currents that in magnetic insulators are decoupled from charge currents and propagate with extremely low power dissipation. InSpin's objectives are to provide a disruptive technology that is spin-based, low-power and ultra-low-noise, leading to superior oscillators, logics, and random access memory compared to those based on charge-based electronics. Ultimately, electrical current-driven magnon Bose-Einstein condensation and the associated super spin-currents enable dissipationless spintronics at room temperature. The strong reduction or even the complete absence of power dissipation in (super) insulator spintronics implies loss-less transfer of spin signals that circumvents the energy dissipation problem, which threatens to end Moore's Law in information and communication technology. InSpin's final deliverable is to fabricate the first functional spin wave bus with signal input and detection and to use this bus to realize a logic majority gate as the key component for future insulator spintronics.

Appel à propositions

FP7-ICT-2013-X
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Coordinateur

NORGES TEKNISK-NATURVITENSKAPELIGE UNIVERSITET NTNU
Contribution de l’UE
€ 551 015,00
Adresse
HOGSKOLERINGEN 1
7491 Trondheim
Norvège

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Région
Norge Trøndelag Trøndelag
Type d’activité
Higher or Secondary Education Establishments
Contact administratif
de Graaf Stefan (Dr.)
Liens
Coût total
Aucune donnée

Participants (4)