English

Measuring Density Functional Parameters from Electron Diffraction Patterns

Strongly Correlated Electrons 2021-05-05 v1
Authors: Ding Peng , Philip N. H. Nakashima
View on arXiv PDF DOI

Abstract

We have integrated density functional theory (DFT) into quantitative convergent-beam electron diffraction (QCBED) to create a synergy between experiment and theory called QCBED-DFT. This synergy resides entirely in the electron density which, in real materials, gives rise to the experimental CBED patterns used by QCBED-DFT to refine DFT model parameters. We used it to measure the Hubbard energy, U, for two strongly correlated electron systems, NiO and CeB6 (UNiO = 7.4 +/- 0.6 eV and UCeB6 = 3.0 +/- 0.6 eV), and the boron position parameter, x, for CeB6 (x = 0.1992 +/- 0.0003). In verifying our measurements, we demonstrate an accuracy test for any modelled electron density.

Keywords

density functional theory electronic structure time-dependent density functional theory

Cite

@article{arxiv.2010.09379,
  title  = {Measuring Density Functional Parameters from Electron Diffraction Patterns},
  author = {Ding Peng and Philip N. H. Nakashima},
  journal= {arXiv preprint arXiv:2010.09379},
  year   = {2021}
}

Comments

7 pages (including 103 references), 5 figures. Supplemental Materials included separately

Related papers

View all related →
Quantum Physics · Physics
Quantum-Electrodynamical Density-Functional Theory Exemplified by the Quantum Rabi Model
Vebjørn H. Bakkestuen, Vegard Falmår, Maryam Lotfigolian, Markus Penz +2
2025-04-02
Materials Science · Physics
Validation of density functionals for transition metals and intermetallics using data from quantitative electron diffraction
Xiahan Sang, Andreas Kulovits, Guofeng Wang, Jorg Wiezorek
2013-02-26
Strongly Correlated Electrons · Physics
DFT+U study of UO$_2$: Correct lattice parameter and electronic band-gap
Mahmoud Payami
2023-02-28
Other Condensed Matter · Physics
Embedded density functional theory for covalently bonded and strongly interacting subsystems
Jason D. Goodpaster, Taylor A. Barnes, Thomas F. Miller
2011-07-27
Chemical Physics · Physics
Development of a Practical Multicomponent Density Functional for Electron-Proton Correlation to Produce Accurate Proton Densities
Yang Yang, Kurt R. Brorsen, Tanner Culpitt, Michael V. Pak +1
2017-09-26
Chemical Physics · Physics
Density Functional Theory Based on the Electron Distribution on the Energy Coordinate
Hideaki Takahashi
2018-02-20
Materials Science · Physics
First-principles electron-phonon interactions with self-consistent Hubbard interaction: an application to transparent conductive oxides
Wooil Yang, Sabyasachi Tiwari, Feliciano Giustino, Young-Woo Son
2025-06-17
Nuclear Theory · Physics
Energy Density Functional of Confined Quarks: an Improved Ansatz
Udita Shukla, Pok Man Lo
2025-06-06
Strongly Correlated Electrons · Physics
Hubbard-corrected density functional perturbation theory with ultrasoft pseudopotentials
Andrea Floris, Iurii Timrov, Burak Himmetoglu, Nicola Marzari +2
2020-02-21
Plasma Physics · Physics
Density-functional calculations of transport properties in the non-degenerate limit and the role of electron-electron scattering
Michael P. Desjarlais, Christian R. Scullard, Lorin X. Benedict, Heather D. Whitley +1
2017-04-05
Strongly Correlated Electrons · Physics
Exact Conditions for Ensemble Density Functional Theory
Thais R. Scott, John Kozlowski, Steven Crisostomo, Aurora Pribram-Jones +1
2023-07-04
Materials Science · Physics
Combining density functional theory with macroscopic QED for quantum light-matter interactions in 2D materials
Mark Kamper Svendsen, Yaniv Kurman, Peter Schmidt, Frank Koppens +2
2021-06-01
Materials Science · Physics
Accurate electronic properties and intercalation voltages of olivine-type Li-ion cathode materials from extended Hubbard functionals
Iurii Timrov, Francesco Aquilante, Matteo Cococcioni, Nicola Marzari
2022-11-03
Strongly Correlated Electrons · Physics
Accurate Electron-phonon Interactions from Advanced Density Functional Theory
Yanyong Wang, Manuel Engel, Christopher Lane, Henrique Miranda +8
2026-01-15
Nuclear Theory · Physics
Global performance of covariant energy density functionals: ground state observables of even-even nuclei and the estimate of theoretical uncertainties
S. E. Agbemava, A. V. Afanasjev, D. Ray, P. Ring
2015-06-19
Mesoscale and Nanoscale Physics · Physics
Quantum electrodynamical density functional theory for generalized Dicke model
A. Kudlis, D. Novokreschenov, I. Iorsh, I. V. Tokatly
2023-10-03
Materials Science · Physics
Machine learning Hubbard parameters with equivariant neural networks
Martin Uhrin, Austin Zadoks, Luca Binci, Nicola Marzari +1
2025-01-30
Chemical Physics · Physics
Embedded fragment stochastic density functional theory
Daniel Neuhauser, Roi Baer, Eran Rabani
2015-06-19
Materials Science · Physics
Role of Exchange in Density Functional Theory for Weakly-Interacting Systems: Quantum Monte Carlo Analysis of Electron Density and Interaction Energy
Yosuke Kanai, Jeffrey C. Grossman
2015-05-14
Materials Science · Physics
First-Principles Study of Two-Dimensional Ferroelectrics Using Self-Consistent Hubbard Parameters
Jiawei Huang, Sang-Hoon Lee, Andrew Supka, Young-Woo Son +1
2020-11-04
Strongly Correlated Electrons · Physics
Lies My Teacher Told Me About Density Functional Theory: Seeing Through Them with the Hubbard Dimer
Kieron Burke, John Kozlowski
2022-09-26
Strongly Correlated Electrons · Physics
Density Functional Theory of the Hubbard-Holstein Model
E. Viñas Boström, P. Helmer, P. Werner, C. Verdozzi
2019-09-04
Strongly Correlated Electrons · Physics
Computing total energies in complex materials using charge self-consistent DFT+DMFT
Hyowon Park, Andrew J. Millis, Chris A. Marianetti
2015-06-22
Materials Science · Physics
Physical Origin of the One-Quarter Exact Exchange in Density Functional Theory
Marco Bernardi
2020-03-27
Materials Science · Physics
Effects of the Hubbard U on density functional-based predictions of BiFeO$_3$ properties
J. Kane Shenton, Wei Li Cheah, David R. Bowler
2018-04-10