Hans Nordman
Hans Nordman is Professor in Electromagnetic field theory. His research area is fusion plasma physics. The research is aimed at understanding and modelling turbulent transport of particles and energy in plasmas, a process which is limiting the performance of a fusion device. The research is done in international research projects and in close collaboration with the fusion experiments JET and ITER.
Hans teaches the course "Electromagnetic waves and components" in the master's program and "Electric circuits and electrical energy" at the bachelor level.

Showing 96 publications
Comparing particle transport in JET and DIII-D plasmas: gyrokinetic and gyrofluid modelling
Collisionality driven turbulent particle transport changes in DIII-D H-mode plasmas
Density peaking in JET-determined by fuelling or transport?
Overview of the JET preparation for deuterium-tritium operation with the ITER like-wall
Impact of fast ions on density peaking in JET: fluid and gyrokinetic modeling
Interpretative and predictive modelling of Joint European Torus collisionality scans
Isotope identity experiments in JET-ILW with H and D L-mode plasmas
Isotope identity experiments in JET-ILW
Four separate dimensionless collisionality scans in various JET scenarios
Statistical description of turbulent transport for flux driven toroidal plasmas
Four Separate Dimensionless Collisionality Scans in various JET Scenarious
Gyrokinetic simulations of particle transport in pellet fuelled JET discharges
Impact of a hollow density profile on turbulent particle fluxes: Gyrokinetic and fluid simulations
Efficient generation of energetic ions in multi-ion plasmas by radio-frequency heating
Uncertainty estimation and a stopping rule in nonlinear gyrokinetic simulations
Fluid and gyrokinetic modelling of particle transport in plasmas with hollow density profiles
Gyrokinetic simulations of transport in pellet fuelled discharges at JET
Universal statistical description of turbulent transport for flux driven toroidal plasmas
Interaction between turbulence and neoclassical effects in global gyrokinetic simulations with GENE
Fluid and gyrokinetic modelling of particle transport in plasmas with hollow density profiles
Gyrokinetic modelling of baseline H-mode JET plasmas with C Wall and ITER-like wall
Dimensionless collisionality scans for core particle transport in JET
Gyrokinetic modelling of baseline H-mode JET plasmas with C Wall and ITER-like wall
Gyrokinetic modelling of stationary electron and impurity profiles in tokamaks
Effects of the Second Harmonic and Plasma Shaping on the Geodesic Acoustic Mode
A semi-analytic power balance model for low (L) to high (H) mode transition power threshold
Effects of the equilibrium model on impurity transport in tokamaks
Gyrokinetic modelling of stationary electron and impurity profiles in tokamaks
Gyrokinetic modelling of stationary electron and impurity profiles in tokamaks
Predictive simulations of impurity transport at JET
Effects of the Second Harmonic on the GAM in Electron Scale Turbulence
High frequency geodesic acoustic modes in electron scale turbulence
Saturation Level of ETG Turbulence
Predictive simulations of impurity transport at JET
Gyrokinetic simulations of turbulent transport in JET-like plasmas
Overview of the JET results with the ITER-like wall
Gyrokinetic simulations of turbulent transport in JET-like plasmas
Turbulence, Fusion and Clean Energy
Fractional Fokker-Planck Equation vs Tsallis’ Statistical Mechanics
Symmetry breaking effects of density gradient on parallel momentum transport: A new ρ* effect
Turbulent particle transport driven by ion and electron modes
Electron Geodesic Acoustic Modes in Electron Temperature Gradient Mode Turbulence
Turbulent particle transport driven by ion and electron modes
High Frequency Geodesic Acoustic Modes in Electron Scale Turbulence
A model for the power required to access the H-mode in tokamaks and projections for ITER
Electron geodesic acoustic modes in electron temperature gradient mode turbulence
Impurity transport in temperature gradient driven turbulence
Particle transport in ion and electron scale turbulence
Particle transport in density gradient driven TE mode turbulence
Particle transport in ion and electron scale turbulence
Fluid and gyrokinetic simulations of impurity transport at JET
Turbulent impurity transport driven by temperature and density gradients
Secondary instability of electromagnetic ion-temperature-gradient modes for zonal flow generation
Core transport studies in fusion devices
Turbulent impurity transport in fusion plasmas
Impurity transport in ITG and TE mode dominated turbulence
Impurity transport in ITG and TE mode dominated turbulence
Core transport studies in fusion devices
Modelling of impurity transport experiments at the Joint European Torus
Turbulent and neoclassical impurity transport in tokamak plasmas
Symmetry breaking effects of toroidicity on toroidal momentum transport
Impurity characterisation in JET operational scenarios
Transport in ITER-like plasmas in neoclassical, fluid and gyrokinetic descriptions
Anomalous impurity transport in tokamaks in the presence of RF fields
Influence of radio frequency ponderomotive force on anomalous impurity transport in tokamaks
Symmetry breaking effects on toroidal momentum transport
Influence of RF fields on anomalous impurity transport in tokamaks
Influence of magnetic shear on impurity transport
Predictive simulations of toroidal momentum transport at JET
Toroidal and poloidal momentum transport studies in JET
Progress on Anomalous Transport in Tokamaks, Drift Waves and Nonlinear Structures
Toroidal and poloidal momentum transport studies in tokamaks
Influence of magnetic shear on impurity transport
Magnetic shear scaling of ITG and TE mode driven transport in quasi-linear fluid descriptions
Collisionless trapped-electron mode turbulence and transport in fluid descriptions
ITG and TE mode turbulence and transport in advanced fluid descriptions
Zonal flow generation in collisionless trapped electron mode turbulence
The role of magnetic shear for zonal flow generation and transport barriers
Plasma rotation and momentum transport studies at JET
The role of magnetic shear for zonal flow generation
Anomalous momentum transport due to drift-waves in tokamaks
Anomalous Particle Transport in DT Plasmas
Effects of impurities on driftwave based particle transport and comparison with neoclassical theory
Progress in the theory of anomalous transport in tokamaks, drift waves and nonlinear structures
Progress in Understanding Heat Transport at JET
Physics of Transports in Tokamaks
Zonal flow generation in ITG turbulence
Effects of cross-sectional elongation on the resistive edge modes
Effects of non-circular tokamak geometry on ion-temperature-gradient driven modes
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Showing 1 research projects
Thermonuclear fusion: predicting complex nonlinear phenomena in fusion plasmas