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Machine-learning approach to finite-size effects in systems with strongly interacting fermions

Nawar Ismail, Alexandros Gezerlis

2021Physical review. C10 citationsDOIOpen Access PDF

Abstract

We investigate the applicability of machine learning techniques in studying the finite-size effects associated with many-body physics. These techniques have an emerging presence in many-body theory as they have been used for interpolations, extrapolations, and in modeling wave functions. We will resolve several issues associated with machine learning and many-body calculations such as small datasets, outliers, and discontinuities, for the purpose of extrapolating finite calculations to macroscopic scales. We carry out a systematic investigation of two related systems by developing metrics that aim to avoid spurious effects and capture desired features. This work uses neural networks to extrapolate the unitary gas to the thermodynamic limit at zero range, which is otherwise difficult to reach. The effective mass of strongly interacting neutron matter is also studied and makes use of the noninteracting problem to resolve discontinuous predictions. For this investigation, we also carried out new auxiliary field diffusion Monte Carlo (AFDMC) calculations for a variety of densities and particle numbers. Ultimately, we demonstrate an effective utility for neural networks in this context.

Topics & Concepts

Spurious relationshipStatistical physicsContext (archaeology)Limit (mathematics)Thermodynamic limitClassification of discontinuitiesArtificial neural networkDiffusion Monte CarloComputer sciencePhysicsFermionMonte Carlo methodRange (aeronautics)Variety (cybernetics)Machine learningArtificial intelligenceMathematicsQuantum mechanicsHybrid Monte CarloMarkov chain Monte CarloMathematical analysisBayesian probabilityMaterials scienceBiologyComposite materialStatisticsPaleontologyNuclear physics research studiesQuantum, superfluid, helium dynamicsAdvanced Chemical Physics Studies
Machine-learning approach to finite-size effects in systems with strongly interacting fermions | Litcius