The GW-BSE framework with exciton envelope modulation and sum-over-exciton-states expansion captures the frequency-dependent optical activity in alpha-quartz, where excitonic many-body effects are decisive over independent-particle approximations.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
fields
cond-mat.mtrl-sci 2verdicts
UNVERDICTED 2representative citing papers
r²SCAN meta-GGA accurately predicts yttrium hcp-Sm-dhcp transition pressures matching experiment, with transitions driven by vibrational soft acoustic modes in phonons.
citing papers explorer
-
\textit{Ab initio} \textit{GW}-BSE theory of optical activity in $\alpha$-quartz
The GW-BSE framework with exciton envelope modulation and sum-over-exciton-states expansion captures the frequency-dependent optical activity in alpha-quartz, where excitonic many-body effects are decisive over independent-particle approximations.
-
Revisiting Phase Transitions of Yttrium: Insights from Density Functional Theory
r²SCAN meta-GGA accurately predicts yttrium hcp-Sm-dhcp transition pressures matching experiment, with transitions driven by vibrational soft acoustic modes in phonons.