Measurement of Filling-Factor-Dependent Magnetophonon Resonances in Graphene<? format?> Using Raman Spectroscopy
Y Kim, JM Poumirol, A Lombardo, NG Kalugin… - Physical review …, 2013 - APS
Physical review letters, 2013•APS
We perform polarization-resolved Raman spectroscopy on graphene in magnetic fields up to
45 T. This reveals a filling-factor-dependent, multicomponent anticrossing structure of the
Raman G peak, resulting from magnetophonon resonances between magnetoexcitons and
E 2 g phonons. This is explained with a model of Raman scattering taking into account the
effects of spatially inhomogeneous carrier densities and strain. Random fluctuations of strain-
induced pseudomagnetic fields lead to increased scattering intensity inside the anticrossing …
45 T. This reveals a filling-factor-dependent, multicomponent anticrossing structure of the
Raman G peak, resulting from magnetophonon resonances between magnetoexcitons and
E 2 g phonons. This is explained with a model of Raman scattering taking into account the
effects of spatially inhomogeneous carrier densities and strain. Random fluctuations of strain-
induced pseudomagnetic fields lead to increased scattering intensity inside the anticrossing …
We perform polarization-resolved Raman spectroscopy on graphene in magnetic fields up to 45 T. This reveals a filling-factor-dependent, multicomponent anticrossing structure of the Raman peak, resulting from magnetophonon resonances between magnetoexcitons and phonons. This is explained with a model of Raman scattering taking into account the effects of spatially inhomogeneous carrier densities and strain. Random fluctuations of strain-induced pseudomagnetic fields lead to increased scattering intensity inside the anticrossing gap, consistent with the experiments.
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