Litcius/Paper detail

Quantum vibronic effects on the electronic properties of solid and molecular carbon

Arpan Kundu, Marco Govoni, Han Yang, Michele Ceriotti, Francois Gygi, Giulia Galli

2021Physical Review Materials23 citationsDOIOpen Access PDF

Abstract

We study the effect of quantum vibronic coupling on the electronic properties of carbon allotropes, including molecules and solids, by combining path integral first principles molecular dynamics (FPMD) with a colored noise thermostat. In addition to avoiding several approximations commonly adopted in calculations of electron-phonon coupling, our approach only adds a moderate computational cost to FPMD simulations and hence it is applicable to large supercells, such as those required to describe amorphous solids. We predict the effect of electron-phonon coupling on the fundamental gap of amorphous carbon, and we show that in diamond the zero-phonon renormalization of the band gap is larger than previously reported.

Topics & Concepts

Vibronic couplingMaterials scienceCoupling (piping)Vibronic spectroscopyDiamondMoleculeRenormalizationCarbon fibersBand gapAmorphous solidElectronic structureQuantumChemical physicsMolecular dynamicsMolecular physicsAmorphous carbonNoise (video)Condensed matter physicsComputational chemistryMolecular vibrationDiamond and Carbon-based Materials ResearchBoron and Carbon Nanomaterials ResearchFullerene Chemistry and Applications
Quantum vibronic effects on the electronic properties of solid and molecular carbon | Litcius