Computational models of mantle convection must accurately represent curved boundaries and the associated boundary conditions of a 3-D spherical shell, bounded by Earth's surface and the core-mantle boundary. This is also true for comparable models in a simplified 2-D cylindrical geometry. It is of fundamental importance that the codes underlying these models are carefully verified prior to their application in a geodynamical context, for which comparisons against analytical solutions are an indispensable tool. However, analytical solutions for the Stokes equations in these geometries, based upon simple source terms that adhere to physically realistic boundary conditions, are often complex and difficult to derive. In this paper, we present t...
A three-dimensional finite-element method is used to investigate thermal convection in the earth's m...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Earth, Atmospheric, and Planetary S...
We investigate the possibility of a deep, dense layer in Earth's mantle. For this purpose we have de...
Computational models of mantle convection must accurately represent curved boundaries and the associ...
As high-performance computing facilities and sophisticated modeling software become available, model...
Fully 3-D numerical simulations of thermal convection in a spherical shell have become a standard fo...
We have incorporated faults as plate margins into time-dependent mantle convection models by using a...
Fully 3-D numerical simulations of thermal convection in a spherical shell have become a standard fo...
The long-term motion of the Earth's mantle is of considerable interest to geologists and geodynamist...
Computational models yield inaccurate results if the underlying numerical grid fails to provide the ...
Copyright © 2008 American Institute of PhysicsHydrothermal convection of pore water of uniform visco...
A method for incorporating multi-resolution capabilities within pre-existing global 3-D spherical ma...
A Finite Element Method for solving the convection problem in a fluid with position-dependent Newton...
In this dissertation we describe the design, implementation, and use of a two-dimensional, second-or...
Plane-layer geometry convection models remain useful for modelling planetary mantle dynamics however...
A three-dimensional finite-element method is used to investigate thermal convection in the earth's m...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Earth, Atmospheric, and Planetary S...
We investigate the possibility of a deep, dense layer in Earth's mantle. For this purpose we have de...
Computational models of mantle convection must accurately represent curved boundaries and the associ...
As high-performance computing facilities and sophisticated modeling software become available, model...
Fully 3-D numerical simulations of thermal convection in a spherical shell have become a standard fo...
We have incorporated faults as plate margins into time-dependent mantle convection models by using a...
Fully 3-D numerical simulations of thermal convection in a spherical shell have become a standard fo...
The long-term motion of the Earth's mantle is of considerable interest to geologists and geodynamist...
Computational models yield inaccurate results if the underlying numerical grid fails to provide the ...
Copyright © 2008 American Institute of PhysicsHydrothermal convection of pore water of uniform visco...
A method for incorporating multi-resolution capabilities within pre-existing global 3-D spherical ma...
A Finite Element Method for solving the convection problem in a fluid with position-dependent Newton...
In this dissertation we describe the design, implementation, and use of a two-dimensional, second-or...
Plane-layer geometry convection models remain useful for modelling planetary mantle dynamics however...
A three-dimensional finite-element method is used to investigate thermal convection in the earth's m...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Earth, Atmospheric, and Planetary S...
We investigate the possibility of a deep, dense layer in Earth's mantle. For this purpose we have de...