Electron Transport and Dynamics II
FOCUS · MAR-J46 · ID: 3984407
Presentations
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First-principles Study of Electron-Phonon Interaction in Transparent Conductive Oxides with Self-Consistent Hubbard Corrections
ORAL
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Publication: Phys. Rev. B 112, 075203
Presenters
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Wooil Yang
- The University of Texas at Austin
- Korea Institute for Advanced Study
Authors
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Wooil Yang
- The University of Texas at Austin
- Korea Institute for Advanced Study
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Sabyasachi Tiwari
- University of Texas at Austin
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Young-Woo Son
- Korea Institute for Advanced Study
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Feliciano Giustino
- University of Texas at Austin
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Time-dependent Boltzmann transport equation for high-field charge transport
ORAL
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Presenters
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Amanda Wang
- University of Michigan
Authors
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Amanda Wang
- University of Michigan
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Nick Pant
- University of Texas at Austin
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Xiao Zhang
- University of Michigan
- University of Michigan Ann Arbor
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Sabyasachi Tiwari
- University of Texas at Austin
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Yiming Pan
- University Kiel
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Fabio Caruso
- University of Kiel
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Feliciano Giustino
- University of Texas at Austin
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Samuel Poncé
- UCLouvain
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Emmanouil Kioupakis
- University of Michigan
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Electronic viscosity from first principles: link to conductivity, GW theory, and Fermi surfaces
ORAL
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Presenters
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Tommaso Chiarotti
- Caltech
Authors
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Tommaso Chiarotti
- Caltech
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Ina M Sorensen
- Caltech
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Marco Bernardi
- Caltech
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Electron viscosity from first principles: from graphene to anisotropic Fermi surfaces
ORAL
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Presenters
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Ina M Sorensen
- Caltech
Authors
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Ina M Sorensen
- Caltech
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Tommaso Chiarotti
- Caltech
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Marco Bernardi
- Caltech
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Abstract Withdrawn
ORAL · Withdrawn
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Fast Extrapolation of Open Quantum System Dynamics via Machine-Learned Time-Dependent Density Functionals
ORAL
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Publication: Y Rath, L P Lindoy, A Agarwal, I Rungger. Fast extrapolation of open quantum system dynamics by machine learning
time-dependent density functionals. In preparation.Presenters
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Yannic Rath
- National Physical Laboratory (NPL)
- National Physical Laboratory
Authors
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Yannic Rath
- National Physical Laboratory (NPL)
- National Physical Laboratory
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Lachlan P Lindoy
- National Physical Laboratory
- National Physical Laboratory (NPL)
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Abhishek Agarwal
- National Physical Laboratory (NPL)
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Ivan Rungger
- National Physical Laboratory
- National Physical Laboratory (NPL)
- National Physical Laboratory (NPL) & Royal Holloway University of London
- National Physical Laboratory (NPL), Royal Holloway University of London (RHUL)
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Modeling Electromagnetic Field Dependent Spatio-temporal Transport from First Principles
ORAL
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Presenters
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Joshua S Quinton
- Rensselaer Polytechnic Institute
Authors
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Joshua S Quinton
- Rensselaer Polytechnic Institute
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Mayada Fadel
- Rensselaer Polytechnic Institute
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Yuan Ping
- University of Wisconsin Madison
- University of Wisconsin - Madison
- University of Wisconsin-Madison
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Ravishankar Sundararaman
- Rensselaer Polytechnic Institute
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Higher-order finite difference method for accurate calculation of Wannier centers and position matrix elements
ORAL
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Publication: [1] M. Ghim, J.-M. Lihm, and C.-H. Park, "Accurate calculation of position matrix elements for Wannier interpolation, Part 2: higher-order finite difference", Wanner 2022 Developers Meeting, Trieste, Italy (2022).
[2] J.-M. Lihm, M. Ghim, S.-J. Hong, and C.-H. Park, unpublished.Presenters
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Minsu Ghim
- Seoul National University
Authors
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Minsu Ghim
- Seoul National University
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Jae-Mo Lihm
- Université catholique de Louvain
- UCLouvain
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Seung-Ju Hong
- Seoul National University
- Seoul Natl Univ
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Cheol-Hwan Park
- Seoul National University
- Seoul Natl Univ
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Abstract Withdrawn
ORAL · Invited · Withdrawn
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