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Paper detail

Direct comparison of many-body methods for realistic electronic Hamiltonians

A large collaboration carefully benchmarks 20 first principles many-body electronic structure methods on a test set of 7 transition metal atoms, and their ions and monoxides. Good agreement is attained between the 3 systematically converged methods, resulting in experiment-free reference values. These reference values are used to assess the accuracy of modern emerging and scalable approaches to the many-electron problem. The most accurate methods obtain energies indistinguishable from experimental results, with the agreement mainly limited by the experimental uncertainties. Comparison between methods enables a unique perspective on calculations of many-body systems of electrons.

preprint2019arXivOpen access
Kiel T. WilliamsYuan YaoJia LiLi ChenHao ShiMario MottaChunyao NiuUshnish RaySheng GuoRobert J. AndersonJunhao LiLan Nguyen TranChia-Nan YehBastien MussardSandeep SharmaFabien BrunevalMark van SchilfgaardeGeorge H. BoothGarnet Kin-Lic ChanShiwei ZhangEmanuel GullDominika ZgidAndrew MillisCyrus J. UmrigarLucas K. Wagner
cond-mat.str-elcond-mat.mtrl-sci
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Kiel T. WilliamsYuan YaoJia LiLi ChenHao ShiMario MottaChunyao NiuUshnish RaySheng GuoRobert J. AndersonJunhao LiLan Nguyen TranChia-Nan YehBastien MussardSandeep SharmaFabien BrunevalMark van SchilfgaardeGeorge H. BoothGarnet Kin-Lic ChanShiwei ZhangEmanuel GullDominika ZgidAndrew MillisCyrus J. UmrigarLucas K. Wagner

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