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Accessing the spectral function of <i>in operando</i> devices by angle-resolved photoemission spectroscopy

Philip Hofmann

2021AVS Quantum Science27 citationsDOIOpen Access PDF

Abstract

Progress in performing angle-resolved photoemission spectroscopy (ARPES) with high spatial resolution in the order of 1~$\mu$m or less (nanoARPES) has opened the possibility to map the spectral function of solids on this tiny scale and thereby obtain detailed information on the materials' \emph{local} electronic band structure and many-body interactions. Recently, nanoARPES has been used to study simple electronic devices, based on two-dimensional materials, with the possibility of tuning the carrier type and density by field effect-gating, and while passing a current through the device. It was demonstrated that nanoARPES can detect possible changes in the materials' electronic structure in these situations and that it can map the local doping, conductance and mobility. This article reviews these first \emph{in operando} ARPES results on devices, discusses the resulting new insights, as well as the perspectives for future developments of the technique.

Topics & Concepts

Angle-resolved photoemission spectroscopyPhotoemission spectroscopyElectronic structureMaterials scienceSpectroscopyField (mathematics)Inverse photoemission spectroscopyResolution (logic)Spectral functionElectronic band structureSpectral lineFunction (biology)OptoelectronicsConductanceSpectral resolutionHigh resolutionPhysicsScale (ratio)Condensed matter physicsSimple (philosophy)Computational physicsAtomic physicsElectron spectroscopyElectronic systemsOpticsDensity of statesWork function2D Materials and ApplicationsElectronic and Structural Properties of OxidesChemical and Physical Properties of Materials
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