Abstract
We examine the characteristics of the microwave/mm-wave/terahertz radiation-induced magnetoresistance oscillations in monolayer and bilayer graphene and report that the oscillation frequency of the radiation-induced magnetoresistance oscillations in the massless, linearly dispersed monolayer graphene system should depend strongly both on the Fermi energy, and the radiation frequency, unlike in the case of the massive, parabolic, GaAs/AlGaAs 2D electron system, where the radiation-induced magnetoresistance oscillation frequency depends mainly on the radiation frequency. This possible dependence of the magnetoresistance oscillation frequency on the Fermi level at a fixed radiation frequency also suggests a sensitivity to the gate voltage in gated graphene, which suggests an in-situ tunable photo-excitation response in monolayer graphene that could be useful for sensing applications. In sharp contrast to monolayer graphene, bilayer graphene is expected to show radiation-induced magnetoresistance oscillations more similar to the results observed in the GaAs/AlGaAs 2D system. Such expectations for the radiation-induced magnetoresistance oscillations are presented here to guide future experimental studies in both of these modern atomic layer material systems.
Highlights
Large amplitude magnetoresistance oscillations under photoexcitation imply strong electrical sensitivity to electromagnetic waves, which could potentially be applied towards the realization of microwave/mm-wave/terahertz photodetectors[84,85,86,87]
One expects that photo-excited magnetotransport studies of modern atomic layer 2D systems such as monolayer and bilayer graphene could potentially unveil new science and applications[46,91,92,93,94,95,96,97,98,99]
A question of interest is: what will be the oscillatory resistance response of modern atomic layered 2D materials such as, for example, graphene under electromagnetic wave excitation in a magnetic field? Below, we examine the expected characteristics for both the monolayer and bilayer graphene
Summary
Large amplitude magnetoresistance oscillations under photoexcitation imply strong electrical sensitivity to electromagnetic waves, which could potentially be applied towards the realization of microwave/mm-wave/terahertz photodetectors[84,85,86,87]. Our results suggest a strong sensitivity of the response in monolayer graphene to both the Fermi energy and the radiation frequency.
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