Selectively localized Wannier functions
ORAL
Abstract
Since the seminal work of Marzari and Vanderbilt, maximally localized Wannier functions have become widely used as real-space representations of electronic structure in periodic systems. In this talk we discuss selectively localized Wannier functions (SLWF) which allow localization of a particular subset of orbitals of interest, and also enable the fixing of orbital centers and ensuring the preservation of point-group symmetries. Applications of our method to GaAs, SrMnO$_3$, and Co demonstrate that SLWF can offer improvements over standard techniques, especially in beyond DFT methods.
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Authors
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Runzhi Wang
Columbia University
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Emanuel Lazar
University of Pennsylvania
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Hyowon Park
University of Illionis at Chicago, University of Illinois at Chicago
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Andrew Millis
Columbia University, Department of Physics, Columbia University, New York, New York 10027, USA, Departemtn of Physics, Columbia University, Dept. of Physics, Columbia Univ.
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Chris Marianetti
Department of Applied Physics and Applied Mathematics, Columbia University, Departemtn of Applied Physics and Applied Math, Columbia University, Columbia University, Columbia Univ