Twisted bilayer WSe2 shows amplified light-induced interlayer distance change compared to perfect AB stacking because twisting softens the interlayer force constant and increases out-of-plane excited-state forces via in-plane strain.
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2 Pith papers cite this work. Polarity classification is still indexing.
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Dynamically corrected BSE@scGW on the Matsubara axis produces singlet and triplet excitation energies for small molecules that closely match high-level wavefunction benchmarks.
citing papers explorer
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Multi-scale calculation of light-induced structural changes in low-angle twisted bilayer WSe$_2$
Twisted bilayer WSe2 shows amplified light-induced interlayer distance change compared to perfect AB stacking because twisting softens the interlayer force constant and increases out-of-plane excited-state forces via in-plane strain.
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Dynamically Corrected Bethe-Salpeter Equation Solver for Self-consistent $GW$ Reference on the Matsubara Frequency Axis
Dynamically corrected BSE@scGW on the Matsubara axis produces singlet and triplet excitation energies for small molecules that closely match high-level wavefunction benchmarks.