Antimony telluride homologous superlattices with two to four antimonene layers exhibit a saddle point and associated van Hove singularity near the M-point, driven by Sb and Te pz orbital hybridization.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
years
2026 2representative citing papers
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
-
Evolution of the Saddle Point in Antimony Telluride Homologous Superlattices
Antimony telluride homologous superlattices with two to four antimonene layers exhibit a saddle point and associated van Hove singularity near the M-point, driven by Sb and Te pz orbital hybridization.
-
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.