Optical Measurement of the Phase-Breaking Length in Graphene

Abstract

In mesoscopic physics, interference effects play a central role on the transport properties of conduction electrons, giving rise to exotic phenomena such as weak localization, Aharonov-Bohm effect, and universal conduction fluctuations. Mesoscopic objects have a size on the order of the phase-breaking length Lφ, the length conduction electrons travel while keeping phase coherence. In this letter, we use vibrational spectroscopy in combination with a novel optical defocusing method to measure Lφ of photo-excited electrons in graphene which undergo inelastic scattering by optical phonons. We extract Lφ from the spatial confinement of the defect-induced Raman D band near the edges of graphene. Temperature dependent measurements in the range of 1.55\,K to 300\,K yield Lφ 1/T, in agreement with previous magneto-transport measurements.