Litcius/Paper detail

Low-density phase diagram of the three-dimensional electron gas

Sam Azadi, N. D. Drummond

2022Physical review. B./Physical review. B30 citationsDOIOpen Access PDF

Abstract

Variational and diffusion quantum Monte Carlo methods are employed to investigate the zero-temperature phase diagram of the three-dimensional homogeneous electron gas at very low density. Fermi fluid and body-centered cubic Wigner crystal ground-state energies are determined using Slater-Jastrow-backflow and Slater-Jastrow many-body wave functions at different densities and spin polarizations in finite simulation cells. Finite-size errors are removed using twist-averaged boundary conditions and extrapolation of the energy per particle to the thermodynamic limit of infinite system size. Unlike previous studies, our results show that the electron gas undergoes a first-order quantum phase transition directly from a paramagnetic fluid to a body-centered cubic crystal at density parameter ${r}_{\text{s}}=86.6(7)$, with no region of stability for an itinerant ferromagnetic fluid.

Topics & Concepts

Wigner crystalFermi gasCondensed matter physicsPhysicsPhase diagramDiffusion Monte CarloElectronSlater determinantThermodynamic limitCubic crystal systemMonte Carlo methodPhase (matter)Quantum mechanicsHybrid Monte CarloStatisticsMarkov chain Monte CarloMathematicsAtomic orbitalPhysics of Superconductivity and MagnetismQuantum and electron transport phenomenaQuantum, superfluid, helium dynamics