A variational ab initio framework for electron and hole polarons that couples to all phonons, formulated as a nonlinear eigenvalue problem in Kohn-Sham and phonon bases and demonstrated on LiF and Li2O2 without supercells.
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First-principles calculations show robust charge properties but tunable spin Berry curvature, spin Hall conductivity, and magnon excitations in strained CrSiSe3 monolayer under electric fields up to 0.3 V/Å.
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Ab initio theory of polarons: formalism and applications
A variational ab initio framework for electron and hole polarons that couples to all phonons, formulated as a nonlinear eigenvalue problem in Kohn-Sham and phonon bases and demonstrated on LiF and Li2O2 without supercells.
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Spin Response Properties in Electronically Robust Ferromagnetic Strained $\text{CrSiSe}_3$ Monolayer under External Electric Fields
First-principles calculations show robust charge properties but tunable spin Berry curvature, spin Hall conductivity, and magnon excitations in strained CrSiSe3 monolayer under electric fields up to 0.3 V/Å.