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Title: Full versus quasiparticle self-consistency in vertex-corrected GW approaches

Journal Article · · Physical Review B
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  1. Brookhaven National Lab. (BNL), Upton, NY (United States)
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Here, using seven semiconductors/insulators with band gaps covering the range from 1 eV to 10 eV we systematically explore the performance of two different variants of self-consistency associated with famous Hedin's system of equations: the full self-consistency and the so called quasi-particle approximation to it. The pros and cons of these two variants of self-consistency are sufficiently well documented in literature for the simplest GW approximation to the Hedin's equations. Our study, therefore, aims primarily at the level of theory beyond GW approximation, i.e. at the level of theory which includes vertex corrections. Whereas quasi-particle self-consistency has certain advantages at GW level (well known fact), the situation becomes quite different when vertex corrections are included. In the variant with full self-consistency, vertex corrections (both for polarizability and for self energy) systematically reduce the calculated band gaps making them closer to the experimental values. In the variant with quasi-particle self-consistency, however, an inclusion of the same diagrams has considerably larger effect and calculated band gaps become severely underestimated. Different effect of vertex corrections in two variants of self-consistency can be related to the Z-factor cancellation which plays positive role in quasi-particle self-consistency at GW level of theory but appears to be destructive for the quasi-particle approximation when higher order diagrams are included. Second result of our study is that we were able to reproduce the results obtained with the Questaal code using our FlapwMBPT code when the same variant of self-consistency (quasi-particle) and the same level of vertex corrections (for polarizability only, static approximation for screened interaction, and Tamm-Dancoff approximation for the Bethe-Salpeter equation) are used.

Research Organization:
Brookhaven National Lab. (BNL), Upton, NY (United States)
Sponsoring Organization:
USDOE Office of Science (SC), Basic Energy Sciences (BES)
Grant/Contract Number:
SC0012704
OSTI ID:
1841109
Report Number(s):
BNL-222601-2022-JAAM; TRN: US2301232
Journal Information:
Physical Review B, Vol. 105, Issue 4; ISSN 2469-9950
Publisher:
American Physical Society (APS)Copyright Statement
Country of Publication:
United States
Language:
English

References (40)

Linearized self-consistent quasiparticle GW method: Application to semiconductors and simple metals journal October 2017
Elimination of the linearization error in APW/LAPW basis set: Dirac-Kohn-Sham equations journal April 2021
Correlation effects on electron-phonon coupling in semiconductors: Many-body theory along thermal lines journal March 2016
The GW -Method for Quantum Chemistry Applications: Theory and Implementation journal December 2012
Electronic structure of La Ni O 2 and Ca Cu O 2 from a self-consistent vertex-corrected G W approach journal August 2021
Frequency-dependent local interactions and low-energy effective models from electronic structure calculations journal November 2004
Optical response and band structure of LiCoO 2 including electron-hole interaction effects journal September 2021
BerkeleyGW: A massively parallel computer package for the calculation of the quasiparticle and optical properties of materials and nanostructures journal June 2012
Electronic structure of chromium trihalides beyond density functional theory journal October 2021
Product-basis method for calculating dielectric matrices journal June 1994
The ab initio ground state properties and magnetic structure of plutonium journal April 2003
All-electron GW approximation with the mixed basis expansion based on the full-potential LMTO method journal March 2002
Spatial non-locality of electronic correlations beyond GW approximation journal September 2021
Ionization Potentials of Solids: The Importance of Vertex Corrections journal March 2014
Extracting semiconductor band gap zero-point corrections from experimental data journal November 2014
Self-consistent solution of Hedin's equations: Semiconductors and insulators journal May 2017
Electron–plasmon and electron–magnon scattering in ferromagnets from first principles by combining GW and GT self-energies journal November 2021
Reproducibility in density functional theory calculations of solids journal March 2016
Erratum: Band convergence and linearization error correction of all-electron G W calculations: The extreme case of zinc oxide [Phys. Rev. B10.1103/PhysRevB.83.081101 83 , 081101(R) (2011)] journal July 2011
Electron-magnon scattering in elementary ferromagnets from first principles: Lifetime broadening and band anomalies journal July 2019
Electronic structure of Pu and Am metals by self-consistent relativistic G W method journal April 2012
First-principles treatment of Mott insulators: linearized QSGW+DMFT approach journal July 2016
Two-photon spectroscopy study of ZnS and CdS under hydrostatic pressure journal June 1996
Electron–phonon interaction in tetrahedral semiconductors journal January 2005
Isotope effects on the optical spectra of semiconductors journal November 2005
Exciton-Plasmon States in Nanoscale Materials: Breakdown of the Tamm−Dancoff Approximation journal August 2009
Band convergence and linearization error correction of all-electron GW calculations: The extreme case of zinc oxide journal February 2011
ComDMFT: A massively parallel computer package for the electronic structure of correlated-electron systems journal November 2019
GW 100: Benchmarking G 0 W 0 for Molecular Systems journal November 2015
New Method for Calculating the One-Particle Green's Function with Application to the Electron-Gas Problem journal August 1965
Resolution-of-identity approach to Hartree–Fock, hybrid density functionals, RPA, MP2 and GW with numeric atom-centered orbital basis functions journal May 2012
Electronic structure of van der Waals ferromagnet CrI 3 from self-consistent vertex corrected G W approaches journal August 2021
First-Principles Approach to the Electronic Structure of Strongly Correlated Systems: Combining the G W Approximation and Dynamical Mean-Field Theory journal February 2003
Ab initio molecular simulations with numeric atom-centered orbitals journal November 2009
Quasiparticle self-consistent G W method: A basis for the independent-particle approximation journal October 2007
Electronic structure of Na, K, Si, and LiF from self-consistent solution of Hedin's equations including vertex corrections journal October 2016
Interband critical points of GaAs and their temperature dependence journal June 1987
Quantum photoyield of diamond(111)—A stable negative-affinity emitter journal July 1979
Full self-consistency versus quasiparticle self-consistency in diagrammatic approaches: exactly solvable two-site Hubbard model journal July 2015
Bethe–Salpeter equation for absorption and scattering spectroscopy: implementation in the exciting code journal August 2019

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