Add to ORKGMantle convection is the fundamental physical process within earth's interior responsible for the thermal and geological evolution of the planet, including plate tectonics. The mantle is modeled as a viscous, incompressible, non-Newtonian fluid. The wide range of spatial scales, extreme variability and anisotropy in material properties, and severely nonlinear rheology have made global mantle convection modeling with realistic parameters prohibitive. Here we present a new implicit solver that exhibits optimal algorithmic performance and is capable of extreme scaling for hard PDE problems, such as mantle convection. To maximize accuracy and minimize runtime, the solver incorporates a number of advances, including aggressive multi-octree adapt...
Large-scale mantle convection, to first order, is a system driven by interior density anomalies, mod...
Numerical convection experiments were carried out with the aim of simulating the lithosphere as a st...
Numerical modeling of mantle convection is challenging. Owing to the multiscale nature of mantle dy...
Mantle convection is the fundamental physical process within earth's interior responsible for the th...
The thermal convection of rock in Earth's mantle and associated plate tectonics are modeled by nonli...
Mantle convection is the principal control on the thermal and geological evolution of the Earth. Ma...
A new generation, parallel adaptive-mesh mantle convection code, Rhea, is described and benchmarked....
Plate tectonics is regulated by driving and resisting forces concentrated at plate boundaries, but o...
The long-term motion of the Earth's mantle is of considerable interest to geologists and geodynamist...
peer-reviewedMotivated by convection of planetary mantles, we consider a mathematical model for Rayl...
The Earth mantle convects on a global scale, coupling the stress field at every point to every other...
Convection in the Earth's mantle is a complicated phenomenon that causes various tectonic activitie...
Abstract We report the current status of our numerical simulation code named “ACuTEMan ” for large-s...
In this dissertation we describe the design, implementation, and use of a two-dimensional, second-or...
International audienceReconstructing convective flow in the Earth's mantle is a crucial issue for a ...
Large-scale mantle convection, to first order, is a system driven by interior density anomalies, mod...
Numerical convection experiments were carried out with the aim of simulating the lithosphere as a st...
Numerical modeling of mantle convection is challenging. Owing to the multiscale nature of mantle dy...
Mantle convection is the fundamental physical process within earth's interior responsible for the th...
The thermal convection of rock in Earth's mantle and associated plate tectonics are modeled by nonli...
Mantle convection is the principal control on the thermal and geological evolution of the Earth. Ma...
A new generation, parallel adaptive-mesh mantle convection code, Rhea, is described and benchmarked....
Plate tectonics is regulated by driving and resisting forces concentrated at plate boundaries, but o...
The long-term motion of the Earth's mantle is of considerable interest to geologists and geodynamist...
peer-reviewedMotivated by convection of planetary mantles, we consider a mathematical model for Rayl...
The Earth mantle convects on a global scale, coupling the stress field at every point to every other...
Convection in the Earth's mantle is a complicated phenomenon that causes various tectonic activitie...
Abstract We report the current status of our numerical simulation code named “ACuTEMan ” for large-s...
In this dissertation we describe the design, implementation, and use of a two-dimensional, second-or...
International audienceReconstructing convective flow in the Earth's mantle is a crucial issue for a ...
Large-scale mantle convection, to first order, is a system driven by interior density anomalies, mod...
Numerical convection experiments were carried out with the aim of simulating the lithosphere as a st...
Numerical modeling of mantle convection is challenging. Owing to the multiscale nature of mantle dy...