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Infrared nanoscopy of Dirac plasmons at the graphene-SiO2 interface

We report on infrared (IR) nanoscopy of 2D plasmon excitations of Dirac fermions in graphene. This is achieved by confining mid-IR radiation at the apex of a nanoscale tip: an approach yielding two orders of magnitude increase in the value of in-plane component of incident wavevector q compared to free space propagation. At these high wavevectors, the Dirac plasmon is found to dramatically enhance the near-field interaction with mid-IR surface phonons of SiO2 substrate. Our data augmented by detailed modeling establish graphene as a new medium supporting plasmonic effects that can be controlled by gate voltage.

preprint2011arXivOpen access
Zhe FeiGregory O. AndreevWenzhong BaoLingfeng M. ZhangAlexander S. McLeodChen WangMagaret K. StewartZeng ZhaoGerardo DominguezMark ThiemensMichael M. FoglerMichael J. TauberAntonio H. Castro-NetoChun Ning LauFritz KeilmannDimitri N. Basov
cond-mat.mes-hallphysics.optics
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Authors

Zhe FeiGregory O. AndreevWenzhong BaoLingfeng M. ZhangAlexander S. McLeodChen WangMagaret K. StewartZeng ZhaoGerardo DominguezMark ThiemensMichael M. FoglerMichael J. TauberAntonio H. Castro-NetoChun Ning LauFritz KeilmannDimitri N. Basov

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