Pär Strand
Pär Strand är biträdande professor i Elektromagnetisk Fältteori och forskar på transport i fusionsplasmor. Han är engagerad både i analys av experiment, framförallt på JET och utvecklar analysmjukvara både för JET och ITER. Det långsiktiga syftet med forskningen är att via ITER och följande generations DEMOreaktor etablera fusion som en energikälla.
Utöver fusionsenergiforskningen engagerar sig Pär även i utvecklandet teknologier för storskaliga simuleringsmiljöer och datadriven forskning och har initierat och deltagit i flera EU projekt på temat och leder Chalmers center för e-Science.
Visar 156 publikationer
Overview of T and D-T results in JET with ITER-like wall
Data-driven models in fusion exhaust: AI methods and perspectives
High temporal resolution of pedestal dynamics via machine learning on density diagnostics
Experimental research on the TCV tokamak
Overview of the EUROfusion Tokamak Exploitation programme in support of ITER and DEMO
A fast neural network surrogate model for the eigenvalues of QuaLiKiz
Validation of D-T fusion power prediction capability against 2021 JET D-T experiments
Disruption prediction with artificial intelligence techniques in tokamak plasmas
Enabling adaptive pedestals in predictive transport simulations using neural networks
Upgrade and benchmark of quasi-linear transport model EDWM
Enhanced performance in fusion plasmas through turbulence suppression by megaelectronvolt ions
Quasi-Linear transport model EDWM: Update and benchmarking
A FAIR based approach to data sharing in Europe
Overview of JET results for optimising ITER operation
Comparing particle transport in JET and DIII-D plasmas: gyrokinetic and gyrofluid modelling
Scenario development of ITER ELMy H-mode hydrogen plasma
Towards understanding reactor relevant tokamak pedestals
Runaway electron modelling in the EU-IM framework
H-mode plasmas in the pre-fusion power operation 1 phase of the ITER research plan
Towards making fusion data FAIR
Global scaling of the heat transport in fusion plasmas
Full-orbit and drift calculations of fusion product losses due to explosive fishbones on JET
Runaway electron modelling in the self-consistent core European Transport Simulator
On benchmarking of simulations of particle transport in ITER
Physics research on the TCV tokamak facility: From conventional to alternative scenarios and beyond
Interpretative and predictive modelling of Joint European Torus collisionality scans
Multi-machine analysis of EU experiments using the EUROfusion integrated modelling (EU-IM) framework
Measuring fast ions in fusion plasmas with neutron diagnostics at JET
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
Scenario development for the observation of alpha-driven instabilities in JET DT plasmas
Electron acceleration in a JET disruption simulation
Light impurity transport in JET ILW L-mode plasmas
Observation of enhanced ion particle transport in mixed H/D isotope plasmas on JET
Inter-ELM evolution of the edge current density in JET-ILW type i ELMy H-mode plasmas
Equilibrium reconstruction at JET using Stokes model for polarimetry
Integrated modelling of H-mode pedestal and confinement in JET-ILW
TAE stability calculations compared to TAE antenna results in JET
MHD spectroscopy of JET plasmas with pellets via Alfvén eigenmodes
Modelling of JET hybrid plasmas with emphasis on performance of combined ICRF and NBI heating
Effects of nitrogen seeding on core ion thermal transport in JET ILW L-mode plasmas
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
Gyrokinetic simulations of particle transport in pellet fuelled JET discharges
Development of the runaway electron modelling capabilities of the European transport simulator
Flux-driven multi-channel simulations with the quasilinear gyrokinetic transport model QuaLiKiz
Fluid and gyrokinetic modelling of particle transport in plasmas with hollow density profiles
EUROfusion Integrated Modelling (EU-IM) capabilities and selected physics applications
Fluid and gyrokinetic modelling of particle transport in plasmas with hollow density profiles
Multi-channel flux-driven quasilinear turbulent transport prediction over many confinement times
Gyrokinetic simulations of transport in pellet fuelled discharges at JET
Design and first applications of the ITER integrated modelling & analysis suite
Gyrokinetic modelling of baseline H-mode JET plasmas with C Wall and ITER-like wall
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 equilibrium model on impurity transport in tokamaks
Gyrokinetic modelling of stationary electron and impurity profiles in tokamaks
JINTRAC: A system of codes for integrated simulation of Tokamak scenarios
The European Integrated Tokamak Modelling (ITM) effort: achievements and first physics results
Gyrokinetic modelling of stationary electron and impurity profiles in tokamaks
Performance of distributed multiscale simulations
Numerical analysis of JET discharges with the European Transport Simulator
Gyrokinetic simulations of turbulent transport in JET-like plasmas
MDMP: Managed data message passing
Gyrokinetic simulations of turbulent transport in JET-like plasmas
Predictive simulations of impurity transport at JET
Overview of the JET results with the ITER-like wall
Predictive simulations of impurity transport at JET
Turbulence, Fusion and Clean Energy
Modelling of JET hybrid scenarios with the European transport solver
Turbulent particle transport driven by ion and electron modes
Impurity transport in temperature gradient driven turbulence
Application scenarios using serpens suite for Kepler scientific workflow system
Particle transport in ion and electron scale turbulence
Particle transport in density gradient driven TE mode turbulence
Turbulent particle transport driven by ion and electron modes
Particle transport in ion and electron scale turbulence
Easy use of high performance computers for fusion simulations
Fluid and gyrokinetic simulations of impurity transport at JET
Turbulent impurity transport driven by temperature and density gradients
Studies of resistive wall mode stability in multi-parametric space using grid infrastructure
Core transport studies in fusion devices
A European infrastructure for fusion simulations
Impurity transport in ITG and TE mode dominated turbulence
A generic data structure for integrated modelling of tokamak physics and subsystems
Gateway: New high performance computing facility for EFDA task force on integrated Tokamak modelling
Enabling remote access to projects in a large collaborative environment
Impurity transport in ITG and TE mode dominated turbulence
High Performance Computing tools for the Integrated Tokamak Modelling project
Modelling of impurity transport experiments at the Joint European Torus
Turbulent impurity transport in fusion plasmas
Scientific workflows for the linear MHD stability analysis Chain
Simulation and high performance computing–Building a predictive capability for fusion
Simulation and high performance computing-Building a predictive capability for fusion
EUFORIA: Exploring E-science for fusion
Core transport studies in fusion devices
Integrated modelling of ITER reference scenarios
Simulations of the edge plasma: the role of atomic, molecular and surface physics
Influence of radio frequency ponderomotive force on anomalous impurity transport in tokamaks
A universal access layer for the Integrated Tokamak Modelling Task Force
Influence of RF fields on anomalous impurity transport in tokamaks
Anomalous impurity transport in tokamaks in the presence of RF fields
Data structure for the European Integrated Tokamak Modelling Task Force
Integrated tokamak modelling: Infrastructure and Software Integration Project
Influence of magnetic shear on impurity transport
Predictive simulations of toroidal momentum transport at JET
Assessment of Transport in NCSX
Magnetic shear scaling of ITG and TE mode driven transport in quasi-linear fluid descriptions
Critical Gradient Response of the Weiland Model
Toroidal and poloidal momentum transport studies in JET
Toroidal and poloidal momentum transport studies in tokamaks
The way towards thermonuclear fusion simulators
Collisionless trapped-electron mode turbulence and transport in fluid descriptions
Influence of magnetic shear on impurity transport
Plasma rotation and momentum transport studies at JET
ITG and TE mode turbulence and transport in advanced fluid descriptions
Fully predictive time-dependent transport simulations of ITB plasmas in JET
Effects of impurities on driftwave based particle transport and comparison with neoclassical theory
Effect of Poloidal Rotation on the Dynamics of thew ITBs and Transport in JET Plasmas
Anomalous Particle Transport in DT Plasmas
Progress in the theory of anomalous transport in tokamaks, drift waves and nonlinear structures
Progress in Transport Modelling of Internal Transport Barrier Plasmas in JET
Comparison of theory-based and semi-empirical transport modelling in JET plasmas with ITBs
Local potato-plateau transport fluxes and a unified plateau theory
Drift wave simulations of heat and particle transport in Tokamak discharges
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Visar 11 forskningsprojekt
Infrastructure for research and devlopment of fusion reactors: ITER and DEMO
Borderline: utveckling av en prediktiv kapacitet för kanteffekter i fusionsreaktorsrelevanta plasmor
Fair for Fusion - open access for fusion data in Europe (Fair4Fusion)
Thermonuclear fusion: predicting complex nonlinear phenomena in fusion plasmas
Atomic and molecular collisions for plasma fusion energy
Modelling of ITER Scenarios to assess the application of ITER Heating, Fuelling and Impurity Seeding
PRACE Second Implementation Phase project (PRACE-2IP)
Forskning och utveckling av fusionsreaktorteknik
Multiscale Applications on European e-Infrastructures (MAPPER)