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Deep learning surrogate model for kinetic Landau-fluid closure with collision

Libo Wang, X. Q. Xu, Ben Zhu, Chenhao Ma, Yian Lei

2020AIP Advances21 citationsDOIOpen Access PDF

Abstract

In this work, the kinetic Landau-fluid (LF) closure with collision and periodic boundary condition is used in the development of the deep learning (DL) surrogate model. A classical neural network, namely, feedforward neural network or sometimes termed multilayer perceptron, is constructed and trained to learn the kinetic LF closure in the static limit and arbitrary mean free path in configuration space. The preliminary relation between best hyperparameters and critical parameters for data generation is found. Compared with the numerical approach (non-Fourier method) of the LF closure, the deep learning surrogate model shows an order of magnitude of improvement in terms of accuracy. Perhaps most importantly, the surrogate model closure has been integrated for the first time with fluid simulations. Our DL-enabled fluid simulations, for the first time, give the correct Landau damping rate for a wide range of wave vectors, while the Hammett–Perkins closure cannot produce the correct damping rate. We correctly connect the collisionless Hammett–Perkins closure and collisional Braginskii closure to reproduce the intrinsic nonlocal feature of the heat flux with DL techniques. We address the most concerning error accumulation problem and find that simulations with the deep learning surrogate model are as good as, if not better than, simulations with the analytic closure in terms of long-term numerical stability in the linear Landau damping test.

Topics & Concepts

Closure (psychology)Surrogate modelPhysicsStability (learning theory)Artificial neural networkStatistical physicsComputer scienceMathematicsArtificial intelligenceMathematical optimizationMachine learningEconomicsMarket economyFluid Dynamics and Turbulent FlowsMeteorological Phenomena and SimulationsModel Reduction and Neural Networks
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