First Name
Family Name
Institution
Abstract title
Maxim
Ballmer
ETH Zürich
· Non-hotspot volcano chains originating from small-scale sublithospheric convection
· Interaction of the Hawaii'an plume with small-scale sublithospheric convection
Martin
Breuer
Universität Münster
· A numerical study on possible driving mechanisms of core convection
· Turbulent convection in the zero Reynolds number limit and the phenomenon of flow reversals
Yolanda
Deubelbeiss
Direct numerical simulation of two-phase flow: homogenisation and collective behaviour in suspensions
Sabine
Dude
Double-diffusive convection – a possible mechanism for layered mantle convection in planetary bodies
Julia
Ernst-Hullermann
Precession driven dynamo
Andre
Fahl
The effect of resurfacing events on dynamic topography of the surface
Melanie
Forien
Goethe Universität Frankfurt
Simultaneously ascending diapirs from different depths and different positions: a centrifuge study
Birgit
Futterer
Brandenburg University of Technology Cottbus
GeoFlow: First Results of Thermal Convection Experiment on ISS
Gregor
Golabek
· Terrestrial core formation aided by flow channelling instabilities induced by iron diapirs
· Rheological controls on the terrestrial core formation mechanism
Ulrich
Hansen
Dynamical Mechanisms Behind Periodic and Episodic Phenomena in the Earth's Interior
Jörg
Hasenclever
Universität Hamburg
3D numerical modeling of ridge-transform faults using a newly developed multigrid finite element code written in MATLAB
Christian
Hüttig
German Aerospace Center (DLR), Berlin
Scaling of temperature- and pressure-dependent viscosity convection
Alik
Ismail-Zadeh
Universität Karlsruhe
Numerical techniques for solving the inverse retrospective problem of mantle dynamics
Wolfgang
Jacoby
Universität Mainz
Plumes, the Lower Mantle and Gravity Anomalies
Suranita
Kanjilal
Boris
Kaus
Insights on the strength of the continental lithosphere from quasi-instantaneous lithospheric models
Volker
Klemann
GFZ Postdam
Glacial isostasy and plate motion
Christoph
Köstler
Universität Jena
Irena
Löw
· Dynamics of subduction under an active Margin: Effects of rheological weakening by fluids and melts Numerical Modelling
· Magmatic arc development at an active margin - Numerical Modelling
Alexandra
Möller
Influence of rotation on iron and silicate particles in an early Magma Ocean
Pelties
Massive parallel implementation of a 3D numerical convection model
Ana-Catalina
Plesa
Deutsches Zentrum für Luft- und Raumfahrt e.V. (DLR) Berlin
Numerical Simulation of Planetary Interiors: Mantle Convection in a 2D Spherical Shell
Guillaume
Richard
Numerical modeling of two-phase flow in geodynamics: State of the art, benchmark and perspectives
Michael
Riedel
University Potsdam
Metasability, elastic energies, and kinetic scaling of the high-pressure polymorphic phase transformations
Henri
Samuel
BGI Universität Bayreuth
Scaling Laws for heat Partitioning in Terrestrial Planets During Core Formation
Manuel
Schölling
A numerical finite volume model of electromagnetic core-mantle coupling
Harro
Schmeling
The role of melting in continental breakup, ocean formation and plume-rift interaction
Lina
Schumacher
Mantle convection modeling with depth-dependent viscosity –
Effects on the convective planform and plume behavior
Nicoleta
Scurtu
GeoFlow as Thermal Convection Experiment for
Modelling Mantle Dynamics
Meysam
Shahraki
Mantle plumes, geoid variations and surface dynamic topography in axisymmetric spherical geometry
Paul
Tackley
Modelling Compressible Mantle Convection with Large Viscosity Contrasts in a Three-Dimensional Spherical Shell Using the Yin-Yang Grid
Tobias
Trümper
A numerical study on thermo-chemically driven core convection
Herbert
Wallner
Rift Induced Delamination - A new mechanism for explaining Rwenzori Mountain's Extreme Elevation?
Ruth
Ziethe
ESA/ESTEC
· The duration and extent of lunar volcanism
· Planet Formation and Differentiation: A Link between Monte--Carlo Simulations and Computational Fluid Dynamics