Review of the first charged-particle transport coefficient comparison workshop
Paul E. Grabowski,Stephanie Hansen,Michael S. Murillo,Liam Stanton,Frank Graziani,Alex Zylstra,Scott D. Baalrud,Philippe Arnault,Andrew Baczewski,Lorin X. Benedict,C. Blancard,Ondřej Čertík,Jean Clérouin,Lee A. Collins,Sean R. Copeland,Alfredo A. Correa,Jiayu Dai,Jérôme Daligault,Michael P. Desjarlais,M. W. C. Dharma-wardana,Gérald Faussurier,Jeffrey R. Haack,Jeffrey R. Haack,Tomorr Haxhimali,A. Hayes-Sterbenz,Yong Hou,Suxing Hu,D. Jensen,Gerard Jungman,Grigory Kagan,Dongdong Kang,Joel D. Kress,Qian Ma,Mathieu Marciante,Edmund R. Meyer,Robert E. Rudd,Didier Saumon,Luke Shulenburger,R. L. Singleton,Travis Sjostrom,Lucas J. Stanek,Charles Starrett,Christopher Ticknor,S. Valaitis,J. Venzke,Alexander J. White +45 more
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The first Charged-Particle Transport Coefficient Code Comparison Workshop as mentioned in this paper was held in 2016 and participants from eight institutions and four countries gathered to compare calculations of transport coefficients including thermal and electrical conduction, electron-ion coupling, inter-ion diffusion, ion viscosity, and charged particle stopping powers.About:
This article is published in High Energy Density Physics.The article was published on 2020-11-01 and is currently open access. It has received 43 citations till now. The article focuses on the topics: Transport coefficient.read more
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Analytical representation of the local field correction of the uniform electron gas within the effective static approximation
TL;DR: In this paper, an analytical parametrization of the LFC within ESA is presented, which is valid for any wave number, and available for the entire range of densities and temperatures.
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The relevance of electronic perturbations in the warm dense electron gas.
TL;DR: In this article, the authors present the first assessment of common XC functionals against exact path-integral Monte Carlo calculations of the harmonically perturbed thermal electron gas, which is directly related to the numerical modeling of x-ray scattering experiments on warm dense samples.
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Requirements for very high temperature Kohn-Sham density functional simulations and how to bypass them
TL;DR: In this paper, the authors derived a model based on the electron gas properties at finite temperature to predict the total number of orbitals required to reach a given level of occupation and thus a stipulated precision.
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Electronic density response of warm dense matter
Tobias Dornheim,Zh. A. Moldabekov,Kushal Ramakrishna,Panagiotis Tolias,Andrew Baczewski,Dominik Kraus,T. R. Preston,David F. Chapman,Maximilian Böhme,Tilo Döppner,Frank Graziani,Michael Bonitz,Attila Cangi,Jan Vorberger +13 more
TL;DR: In this paper , the authors summarize the relevant theoretical background, covering the regime of linear response theory and nonlinear effects, the fully dynamic response and its static, time-independent limit, and the connection between density response properties and imaginary-time correlation functions (ITCF).
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The Relevance of Electronic Perturbations in the Warm Dense Electron Gas
TL;DR: In this article, the authors present the first assessment of common XC functionals against exact path-integral Monte Carlo calculations of the harmonically perturbed thermal electron gas, which is directly related to the numerical modeling of X-Ray scattering experiments on warm dense samples.
References
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Self-Consistent Equations Including Exchange and Correlation Effects
Walter Kohn,L. J. Sham +1 more
TL;DR: In this paper, the Hartree and Hartree-Fock equations are applied to a uniform electron gas, where the exchange and correlation portions of the chemical potential of the gas are used as additional effective potentials.
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Introduction to solid state physics
TL;DR: In this paper, the Hartree-Fock Approximation of many-body techniques and the Electron Gas Polarons and Electron-phonon Interaction are discussed.
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Statistical-Mechanical Theory of Irreversible Processes : I. General Theory and Simple Applications to Magnetic and Conduction Problems
TL;DR: In this paper, a general type of fluctuation-dissipation theorem is discussed to show that the physical quantities such as complex susceptibility of magnetic or electric polarization and complex conductivity for electric conduction are rigorously expressed in terms of timefluctuation of dynamical variables associated with such irreversible processes.
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