Spintronics with magnetic nanomolecules and graphene flakes

V.I. Yukalov; V.K. Henner; T.S. Belozerova; and E.P. Yukalova

arXiv:1602.06834·cond-mat.mes-hall·February 23, 2016

Spintronics with magnetic nanomolecules and graphene flakes

V.I. Yukalov, V.K. Henner, T.S. Belozerova, and E.P. Yukalova

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TL;DR

This paper explores how magnetization in various nanosystems like nanomolecules, nanoclusters, and graphene can be effectively controlled, highlighting their potential for advancing spintronics technology.

Contribution

It introduces a unified approach to regulate spin dynamics across different magnetic nanostructures, emphasizing their similarities and differences for spintronics applications.

Findings

01

Magnetization can be efficiently regulated in diverse nanosystems.

02

Common properties enable unified control strategies.

03

Differences in particle interactions influence spin dynamics.

Abstract

We show how the magnetization of nano-objects can be efficiently regulated. Several types of nanosystems are considered: magnetics nanomolecules, magnetic nanoclusters, polarized nanomolecules, and magnetic graphene. These nano-objects and the structures composed of them enjoy many common properties, with the main difference being in the type of particle interactions. The possibility of governing spin dynamics is important for spintronics.

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Taxonomy

TopicsMagnetic Properties of Alloys · Magnetic properties of thin films · Magnetism in coordination complexes