Computational aspects of a code to study rotating turbulent convection in spherical shells

A numerical study of several time integration methods for solving the three-dimensional Boussinesq thermal convection equations in rotating spherical shells is presented. Implicit and semi-implicit time integration techniques based on backward differentiation and extrapolation formulae are considere

Measurements from the Galileo probe suggest that the zonal winds are deep rooted. Jupiter's high rotation rate makes it likely that the whole outer molecular H/He layer is involved in these longlived jet flows. Assuming that the primary flows are geostrophic, and that the banded surface structure st

In this paper we describe a numerical model for investigating magnetohydrodynamic (MHD) convective flow of a Boussinesq fluid in a rapidly rotating spherical shell, driven by the buoyancy forces arising from incoming buoyant flux at the inner core boundary. The model is designed to investigate the g

Adaptations 01 rhe bar-fiat search and the branch-and-bound search rechniques lrom anificial imelligence tree pllming algorithms are used to select the most important vibrational-rotational stales or a rriply degenerare anharmonic oscillator-rigid rotor system Tar studying its multiphoton dynamics i