Magnon scattering in single and bilayer graphene intercalates

Semi-classical Monte Carlo simulation is used to determine the effect of magnetic substance as intercalated layer in single layer and bilayer graphene intercalates on spin relaxation length. Spin relaxation lengths are studied with spin density matrix calculation under the effect of one magnon scatt...

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Veröffentlicht in:	Journal of applied physics 2012-12, Vol.112 (11)
Hauptverfasser:	Hiranandani, Dharmendra, Salimath, Akshaykumar, Bishnoi, Bhupesh, Nandal, Vikas, Akram, M. W., Jayanthi, Aditya, Kumar Yada, Mahesh, Ghosh, Bahniman
Format:	Artikel
Sprache:	eng
Schlagworte:	Computer simulation Curie temperature Density Graphene Magnons Monte Carlo methods Scattering Spin waves
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creator	Hiranandani, Dharmendra Salimath, Akshaykumar Bishnoi, Bhupesh Nandal, Vikas Akram, M. W. Jayanthi, Aditya Kumar Yada, Mahesh Ghosh, Bahniman
description	Semi-classical Monte Carlo simulation is used to determine the effect of magnetic substance as intercalated layer in single layer and bilayer graphene intercalates on spin relaxation length. Spin relaxation lengths are studied with spin density matrix calculation under the effect of one magnon scattering mechanisms. Spin relaxation lengths are simulated and made comparisons by including magnon scattering with phonon scattering. The results are simulated with varying temperatures below Curie temperature.
doi_str_mv	10.1063/1.4768173
format	Article
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subjects	Computer simulation Curie temperature Density Graphene Magnons Monte Carlo methods Scattering Spin waves
title	Magnon scattering in single and bilayer graphene intercalates
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