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Ground-state properties of the hydrogen chain: insulator-to-metal transition, dimerization, and magnetic phases

Accurate and predictive computations of the quantum-mechanical behavior of many interacting electrons in realistic atomic environments are critical for the theoretical design of materials with desired properties, and require solving the grand-challenge problem of the many-electron Schrodinger equation. An infinite chain of equispaced hydrogen atoms is perhaps the simplest realistic model for a bulk material, embodying several central themes of modern condensed matter physics and chemistry, while retaining a connection to the paradigmatic Hubbard model. Here we report a combined application of cutting-edge computational methods to determine the properties of the hydrogen chain in its quantum-mechanical ground state. Varying the separation between the nuclei leads to a rich phase diagram, including a Mott phase with quasi long-range antiferromagnetic order, electron density dimerization with power-law correlations, an insulator-to-metal transition and an intricate set of intertwined magnetic orders.

preprint2020arXivOpen access
Mario MottaClaudio GenoveseFengjie MaZhi-Hao CuiRandy SawayaGarnet Kin-Lic ChanNatalia ChepigaPhillip HelmsCarlos Jimenez-HoyosAndrew J. MillisUshnish RayEnrico RoncaHao ShiSandro SorellaEdwin M. StoudenmireSteven R. WhiteShiwei Zhang
cond-mat.str-elphysics.chem-phquant-ph
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Open access17 authors3 topics
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Mario MottaClaudio GenoveseFengjie MaZhi-Hao CuiRandy SawayaGarnet Kin-Lic ChanNatalia ChepigaPhillip HelmsCarlos Jimenez-HoyosAndrew J. MillisUshnish RayEnrico RoncaHao ShiSandro SorellaEdwin M. StoudenmireSteven R. WhiteShiwei Zhang

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