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Literature DB >> 25167293

Defect-mediated spin relaxation and dephasing in graphene.

M B Lundeberg¹, R Yang¹, J Renard¹, J A Folk¹.

Abstract

A principal motivation to develop graphene for future devices has been its promise for quantum spintronics. Hyperfine and spin-orbit interactions are expected to be negligible in single-layer graphene. Spin transport experiments, on the other hand, show that graphene's spin relaxation is orders of magnitude faster than predicted. We present a quantum interference measurement that disentangles sources of magnetic and nonmagnetic decoherence in graphene. Magnetic defects are shown to be the primary cause of spin relaxation, masking any potential effects of spin-orbit interaction.

Entities: Chemical Gene

Year: 2013 PMID： 25167293 DOI： 10.1103/PhysRevLett.110.156601

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

6 in total

Defect-mediated spin relaxation and dephasing in graphene.

1. Graphene spintronics.

2. Long distance spin communication in chemical vapour deposited graphene.

3. Asymmetric Electron-Hole Decoherence in Ion-Gated Epitaxial Graphene.

4. Ultimate Spin Currents in Commercial Chemical Vapor Deposited Graphene.

5. The classical and quantum dynamics of molecular spins on graphene.

6. Observation of spin-polarized Anderson state around charge neutral point in graphene with Fe-clusters.