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Paper detail

Single- and multi-mode Fabry-Pérot interference in suspended graphene

Phase coherence of charge carriers leads to electron-wave interference in ballistic mesoscopic conductors. In graphene, such Fabry-Pérot-like interference has been observed, but a detailed analysis has been complicated by the two-dimensional nature of conduction, which allows for complex interference patterns. In this work, we have achieved high-quality Fabry-Pérot interference in a suspended graphene device, both in conductance and in shot noise, and analyzed their structure using Fourier transform techniques. The Fourier analysis reveals two sets of overlapping, coexisting interferences, with the ratios of the diamonds being equal to the width to length ratio of the device. We attribute these sets to a unique coexistence of longitudinal and transverse resonances, with the longitudinal resonances originating from the bunching of modes with low transverse momentum. Furthermore, our results give insight into the renormalization of the Fermi velocity in suspended graphene samples, caused by unscreened many-body interactions.

preprint2013arXivOpen access
Mika OksanenAndreas UppstuAntti LaitinenDaniel J. CoxMonica CraciunSaverio RussoAri HarjuPertti Hakonen
cond-mat.mes-hall
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Mika OksanenAndreas UppstuAntti LaitinenDaniel J. CoxMonica CraciunSaverio RussoAri HarjuPertti Hakonen

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