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Models of plate tectonics with the Lattice Boltzmann Method

Modern geodynamics is based on the study of a large set of models, with the variation of many parameters, whose analysis in the future will require Machine Learning to be analyzed. We introduce here for the first time how a formulation of the Lattice Boltzmann Method capable of modeling plate tectonics, with the introduction of plastic non-linear rheology, is able to reproduce the breaking of the upper boundary layer of the convecting mantle in plates. Numerical simulation of the earth’s mantle and lithospheric plates is a challenging task for traditional methods of numerical solution to partial differential equations (PDE’s) due to the need to model sharp and large viscosity contrasts, temperature dependent viscosity and highly nonlinear rheologies. Nonlinear rheologies such as plastic or dislocation creep are important in giving mantle convection a past history. We present a thermal Lattice Boltzmann Method (LBM) as an alternative to PDE-based solutions for simulating time-dependent mantle dynamics, and demonstrate that the LBM is capable of modeling an extremely nonlinear plastic rheology. This nonlinear rheology leads to the emergence plate tectonic like behavior and history from a two layer viscosity model. These results demonstrate that the LBM offers a means to study the effect of highly nonlinear rheologies on earth and exoplanet dynamics and evolution.

Ketersediaan

Informasi Detail

Judul Seri

Artificial Intelligence in Geosciences

No. Panggil

551

Penerbit

Beijing : KeAi Communications Co. Ltd.., 2023

Deskripsi Fisik

12 hlm PDF, 4.798 KB

Bahasa

Inggris

ISBN/ISSN

2666-5441

Klasifikasi

551

Tipe Isi

text

Tipe Media

-

Tipe Pembawa

-

Edisi

Vol.4, December 2023

Subjek

Lattice Boltzmann Method
Mantle convection simulation
Plate tectonics simulation
Nonlinear rheology
Extreme plasticity

Info Detail Spesifik

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Pernyataan Tanggungjawab

-

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