MHD-days and GDRI Dynamo Meeting 2018
List of Participants |
1 | Dmitry Sokoloff |
Moscow State University | Magnetic energy growth in the subcritical Kazantsev model |
2 | Caroline Nore |
Universite Paris Sud, LIMSI, CNRS | Electro-Vortex flow in Liquid Metal Batteries |
3 | Antonio Ferriz Mas |
Universidad de Vigo, IAA/CSIC | Gauss linking number and magnetic helicity |
4 | Maxim Reshetnyak |
Institute of Physics of the Earth RAS, Moscow | Inverse and direct cascades in geostrophic turbulence |
5 | David Hughes |
University of Leeds | Dynamo action in rapidly rotating convection with no inertia |
6 | Daniel Miller |
Exeter University | Evolution of magnetic field structures in nonlinear MHD dynamos |
7 | Paul Bushby |
Newcastle University | Large-scale oscillatory dynamos in rotating plane layer convection: understanding the mean electromotive force |
8 | Peter Frick |
Institute of Continuous Media Mechanics, Perm | MHD turbulence in spin-down flows of liquid metals |
9 | Krzysztof Mizerski |
Polish Academy of Sciences | Mean field dynamo mechanisms in highly conducting fluids |
10 | Marek Jerzy Grądzki |
Polish Academy of Sciences | The effect of weak magnetic and thermal diffusion on magnetic buoyancy instability |
11 | Nathanel Schaeffer |
Université Grenoble Alpes, CNRS | Precessing spheres: flows and dynamo at low viscosity |
12 | Dominique Jault |
Université Grenoble Alpes, CNRS | Torsional waves in the Earth's core in the presence of topography at the boundaries |
13 | Christian Resagk |
Ilmenau University of Technology | Instabilities of a liquid metal - electrolyte interface caused by local magnetic fields |
14 | Leo Bühler |
Karlsruhe Institute of Technology | Experimental confirmation of additional magnetohydrodynamic pressure drop at junctions between electrically insulating flow channel inserts |
15 | Viktor Klüber |
Karlsruhe Institute of Technology | Pressure-driven 3D liquid metal MHD flow in a dual-coolant lead lithium blanket [POSTER] |
16 | Sebastien Galtier |
Université Paris-Sud | Hall MHD turbulence and the solar wind |
17 | Kannabiran Seshasayanan |
CEA Saclay | Turbulent saturation of the dynamo instability |
18 | Robert Cooper |
Newcastle University | Subcritical convection driven dynamos at low Ekman number |
19 | Thomas Gastine |
IPGP | Is there a stably-stratified layer in Jupiter? Some constraints from global dynamo models |
20 | Jan Simkanin |
Czech Academy of Sciences | A transition from laminar to a turbulent dynamo |
21 | Valdis Bojarevics |
University of Greenwich | Validation of the analytical criterion for MHD stability in aluminium cells and liquid metal batteries |
22 | Ilia Kolesnichenko |
Institute of Continuous Media Mechanics, Perm | Liquid metal flow in channel with helical magnetic field [POSTER] |
23 | Till Zürner |
Ilmenau University of Technology | Reconstruction of large-scale flow dynamics in turbulent Rayleigh-Benard convection |
24 | Ferran Garcia Gonzales |
HZDR | Experiments and simulations on the magnetized spherical Couette problem |
25 | Thierry Alboussiere |
ENS de Lyon, CNRS | Anisotropic dynamos |
26 | Stephan Fauve |
ENS, Paris | |
27 | Christophe Gissinger |
ENS, Paris | Magnetically-driven oceans in Jovian moons [POSTER] |
28 | Wietze Herreman |
Universite Paris Sud, LIMSI, CNRS | |
29 | Yannick Ponty |
Universite de la cote d'azur | |
30 | Ludovic Petitdemange |
CNRS | Simulations of convectively-driven stellar dynamos in a stratified spherical shell |
31 | Ulrich Von Kusserow |
Olbers-Gesellschaft e.V. Bremen | |
32 | Petr Jelinek |
University of South Bohemia | 2D MHD simulations of oscillations excited by plasmoids during magnetic reconnection |
33 | Franck Plunian |
Université Grenoble Alpes, CNRS | Torsional Alfvén waves in a dipolar magnetic field: experiments and simulations (POSTER) |
34 | Lucia Duarte |
Exeter University | |
35 | Basile Gallet |
CEA | An analytical example of the strong-field scaling regime for dynamo saturation |
36 | Nicolas Plihon |
ENS de Lyon, CNRS | Plasma column rotation profile control using emissive electrodes |
37 | Daniela Weston |
University of Leeds | Effects of Turbulent Pumping and Turbulent Diffusion on Magnetic Buoyancy Instability in the Solar Tachocline |
38 | Philipp Grete |
Michigan State University | Correlations and energy transfer in compressible isothermal and adiabatic MHD turbulence |
39 | Jörn Warnecke |
Max Planck Institute for Solar System Research, Göttingen | Understanding rotational dependence of stellar activity using MHD simulations of stellar dynamos and stellar coronae |
40 | Manfred Küker |
Leibniz-Institut für Astrophysik Potsdam |
The turbulent magnetic pressure in rotating convection |
41 | Michael Mond |
Ben-Gurion University | |
42 | Igor Teplyakov |
Joint Institute for High Temperatures of RAS, Moscow | About different MHD-approximations in the simulation of the electrovortex flow |
43 | Irina Klementyeva |
General Electric | |
44 | Gunter Gerbeth |
HZDR | |
45 | Ke Liu |
Dalian University of Technology HZDR |
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46 | Gerd Mutschke |
HZDR | |
47 | Ruslan Khalilov |
Institute of Continuous Media Mechanics, Perm | Determination of the level of magnesium in a titanium reduction reactor |
48 | Yori Fournier |
Leibniz Institute for Astrophysics Potsdam (AIP) |
Non-linear non-localities in Babcock-Leighton dynamos, a solution to solar activity? |
49 | Melissa Menu |
Laboratoire de Physique des Plasmas (LPP) | Inverse cascade of magnetic helicity in MHD turbulence |
50 | Joris Labarbe |
Northumbria University | Discretization of Navier-Stokes equations with spectral methods [POSTER] |
51 | George Mamatsashvili |
Niels Bohr Institute University of Copenhagen |
Quasi-two-dimensional nonlinear evolution of helical magnetorotational instability in a magnetized Taylor-Couette flow |
52 | Todor Kondic |
University of Leeds | Disruption of an Isolated Vortex by the Magnetic Flux Expulsion |
53 | Oleg Kirillov |
Northumbria University | Singular diffusionless limits of double-diffusive instabilities in MHD |
54 | Itzhak Fouxon |
Ben-Gurion University of the Negev | Intermittency and multifractality of growth of weak magnetic fields in compressible turbulence |
55 | Yaroslav Listratov |
Joint Institute for High Temperatures of RAS, Moscow | MHD heat transfer of liquid metals |
56 | Rodion Stepanov |
Institute of Continuous Media Mechanics, Perm | Cross helicity sign reversals in the dissipative scales of magnetohydrodynamic turbulence |
57 | Yue-Kin Tsang |
University of Leeds | Determining the depth of Jupiter's dynamo region |
58 | Alban Potherat |
Coventry University | Convection and magnetoconvection in a rotating tangent cylinder |
59 | Andre Giesecke |
HZDR | Numerical Simulations for the DRESDYN precession dynamo |
60 | Koh Takahashi |
Argelander Institute for Astronomy University of Bonn |
A novel modeling for massive stellar evolution with magnetism |
61 | Gerrit Maik Horstmann |
HZDR | Interfacial wave dynamics in liquid metal batteries |
62 | Thomas Wondrak |
HZDR | Measurement of torsional and sloshing modes in Rayleigh-Benard convection using contactless inductive flow tomography |
63 | Thomas Boeck |
Ilmenau University of Technology | Simulations of decaying MHD turbulence in a flat duct |
64 | Mariangela Viviani |
Max Planck Institute for Solar System Research, Göttingen | Cyclic solutions and anti-solar differential rotation: can a Parker Dynamo Wave explain them? |
65 | Johannes Wicht |
Max Planck Institute for Solar System Research, Göttingen | Dynamo Action of Jupiter's Zonal Winds |
66 | Paolo Personnettaz |
HZDR | The role of fluid flow in heat and mass transport in Liquid Metal Batteries |
67 | Sabrina Sanchez |
Max Planck Institute for Solar System Research, Göttingen | Probing the Earth's core dynamics through geomagnetic data assimilation |
68 | Mouloud Kessar |
University of Leeds | Large Scale vortices in tilted rotating convection |
69 | Fabian Burmann |
Institute for Geophysics ETH Zürich |
Towards a 2D acoustic travel time tomography in rotating flows [POSTER] |
70 | Petri Käpylä |
Georg-August-Universität Göttingen and Aalto University | Semi-global convection-driven dynamos with Kramers opacity law |
71 | Enrico Filippi |
Comenius University Bratislava | Anisotropic beta effect in Rotating Magnetoconvection study |
72 | Jun Chen |
University of Potsdam | Parametric study of torus instability threshold |
73 | Raul Alejandro Avalos-Zuniga |
CICATA-Qro., Instituto Politecnico Nacional | [1] Exciting news from the disc dynamo experiment with liquid metal contacts [2] Experimental Protoype of an AC MHD generator [POSTER] |
74 | Janis Priede |
Coventry University | Inherently fractal nature of the rolling metal pad instability threshold in rectangular cell |
75 | Tom Weier |
HZDR | |
76 | Frank Stefani |
HZDR | |
77 | Günther Rüdiger |
Leibniz Institute for Astrophysics Potsdam (AIP) |
Dynamo action of magnetized Taylor-Couette flows |
78 | Detlef Elstner |
Leibniz Institute for Astrophysics Potsdam (AIP) |
|
79 | Rainer Arlt |
Leibniz Institute for Astrophysics Potsdam (AIP) |
|
80 | Mohammed Talafha |
Eötvös Loránd University | |
81 | Agris Gailitis |
University of Latvia | |
82 | Wolf-Christian Müller |
Technische Universität Berlin | |
83 | Norbert Seehafer |
Universität Potsdam | |
84 | Jozef Brestenský |
FMPHI, Comenius University, Bratislava | |
85 | Thomas Gundrum |
HZDR | |
86 | Martin Seilmayer |
HZDR | Symmetry breaking of azimuthal magnetorotational instability caused by thermal boundary conditions [POSTER] |
87 | Tobias Vogt |
HZDR | |
88 | Christian Karcher |
Technische Universität Ilmenau | |
89 | Lu Chen |
Technische Universität Ilmenau | |
90 | Ze Lyu |
Technische Universität Ilmenau | |
91 | Valentin Sviridov |
MPEI, JIHT RAS | |
92 | Sven Eckert |
HZDR | |
93 | Andris Bojarevics |
University of Latvia |
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