Vibrational Spectra of MO (M=Sn/Pb) in Their Bulk and Single Layer Forms: Role of Avoided Crossing in their Thermodynamic Properties
Raju K Biswas, Swapan K Pati

TL;DR
This study uses ab-initio calculations to analyze phonon dispersion, vibrational spectra, and thermodynamic properties of bulk and monolayer SnO and PbO, highlighting the role of avoided crossing in their vibrational behavior.
Contribution
It reveals the impact of avoided crossing on phonon dispersion and thermodynamic properties in SnO and PbO, including differences between bulk and monolayer forms.
Findings
Avoided crossing affects phonon dispersion and thermodynamic properties.
Monolayer SnO shows similar Raman modes as bulk.
Higher Born effective charges enhance vibrational frequencies.
Abstract
We report ab-initio calculations of the phonon dispersion relation on the bulk and single layer of SnO and PbO. We identify Raman active modes and infrared active modes at the zone center {\Gamma} point. In agreement with experimental observations of Raman spectroscopy measurement, we find that A1g mode is higher in frequency than that of Eg mode. Moreover, the reason behind the shift of A2u mode to higher frequency for monolayer of both SnO and PbO is revealed from our calculations. We also find that long-range Coulomb interaction enhances the dielectric constant and Born effective charges in bulk SnO and bulk PbO, compared to their monolayer. Here, we observe avoided crossing or Landau degeneracy between longitudinal acoustics (LA) and low energetic transverse optical (TO) modes in bulk form of both SnO and PbO. Additionally, monolayer SnO also shows low energetic Raman modes (Eg and…
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