A first principles investigation of electronic charge distribution in random alloys
ORAL
Abstract
In this presentation, we investigate, from the first principles, the electronic charge distribution in random alloys by applying super cell calculations with a linear scaling real space ab initio method, namely the LSMS method. We revisit the so-called qV relation, a phenomenon observed by previous super cell calculations that the excess charge at each atomic site depends linearly on the long range electrostatic potential, or Madelung potential, at the site. We reveal the underlying mechanism that drives the establishment of the qV relation. We show that this relation can be used to improve the conventional KKR-CPA method, or other CPA based ab initio k-space methods, in the self-consistent field calculations.
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Presenters
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Yang Wang
Pittsburgh Supercomput Ctr
Authors
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Yang Wang
Pittsburgh Supercomput Ctr
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Mariia Karabin
Oak Ridge National Lab
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Markus Eisenbach
Oak Ridge National Lab
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George M Stocks
Oak Ridge National Lab
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Xianglin Liu
Oak Ridge National Lab
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Wasim R Mondal
Middle Tennessee State University
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Hanna Terletska
Middle Tennessee State University, Middle Tennessee State University, TN, USA
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Ka-Ming Tam
Louisiana State University, Louisiana State University, LA, USA
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Wai-Ga D Ho
Florida State University
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Vladimir Dobrosavljevic
Florida State University
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Liviu Chioncel
University of Augsburg, Augsburg, Germany, University of Augsburg, Universität Augsburg