HelioWebStefaan Poedts
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A[Stefaan Poedts]
AC["Associated Concepts (25)"]
AW["Authored Works (82)"]
CA["Linked Co-Authors (39)"]
CI["Linked Collaborating Institutions (58)"]
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AW== author ==>CA
AW== affil ==>CI
click AC "#associated-concepts"
click AW "#authored-works"
click CA "#co-authors"
click CI "#collaborating-institutions"
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- ORCiD
- https://orcid.org/0000-0002-1743-0651
- OpenAlex ID
- https://openalex.org/A5014791457 (API record)
Associated Concepts [?]
- Physics
- Quantum mechanics
- Nuclear physics
- Plasma
- Magnetic field
- Solar wind
- Astrophysics
- Mechanics
- Astronomy
- Computational physics
- Engineering
- Chemistry
- Geology
- Coronal mass ejection
- Biology
- Geography
- Organic chemistry
- Optics
- Magnetohydrodynamics
- Mathematics
- Computer science
- Electron
- Thermodynamics
- Classical mechanics
- Meteorology
Authored Works
sorted by decreasing year, and then by display-name
- Unravelling the CME-CME interaction event of early September 2014
- Towards Advanced SEP Forecasting Using Physics-based Simulation Modeling of Particle Acceleration and Transport
- The SafeSpace Sun-to-Belts Integrated Model
- The Role of Drift Waves in Solar Plasma
- The PSP Versus the Helios Mission: Statistical Similarities and Differences Between their Datasets and What Those Can Tell Us for Improving our Models
- Space weather predictions with magnetised coronal mass ejection models in EUHFORIA
- On the seed population of solar energetic particles in the inner heliosphere
- On Acoustic and Magneto-acoustic Wave Heating in Idealized Gravitationally Stratified Partially Ionized Plasmas
- Minimizing the Uncertainty in Bz Prediction for Coronal Mass Ejections Using Data Constrained MHD Simulations With EUHFORIA
- Investigating the Effect of Source Terms in the Corona with COCONUT
- Evolution of Magnetic Complexity and Coherence within Interplanetary Coronal Mass Ejections: Novel Insights from Multi-Point Observational and Numerical Investigations
- ESA's Virtual Space Weather Modelling Centre
- CME-CME Interactions: Preconditioning, Collisions and Flux Erosion: How to Create a Perfect Storm?
- A Data-driven Global Magnetosphere Model for Simulation of Solar Wind/Earth's Magnetosphere Interaction
- The ESA Virtual Space Weather Modelling Centre-Part 3
- The Dynamic Time Warping Technique as an Alternative Way to Evaluate Space Weather Predictions
- Revisiting the Two-fluid Modeling of Acoustic Wave and Shock Propagation in the Gravitationally Stratified Partially Ionized Plasma
- Observation-based modelling of the energetic storm particle event of 14 July 2012
- Magnetized CMEs and solution adaptive mesh refinement in EUHFORIA
- How to Benchmark a Coronal Model for Space Weather Forecasting: Validating EUHFORIA 2.0 Coronal Model Using Simulations and Observations
- Evolution of shock waves and associated type II radio emission in the low corona and interplanetary space
- Evolution of Interplanetary Coronal Mass Ejection Complexity: a Numerical Study Through a Swarm of Simulated Spacecraft
- Employing advanced FRi3D CME model coupled with EUHFORIA in predictions of CME geo-effectiveness
- Designing Radiation Belt Environmental Indicators for the safety of space assets: a transition of powerful tools from research to operations (R2O)
- The Low-Energy Ion Event on 19 June 2020 Measured by Solar Orbiter
- The ESA Virtual Space Weather Modelling Centre - Part 3
- Spontaneous Magnetic Fluctuations of Kappa Electron Distributions
- Real time physics-based solar wind forecasts for SafeSpace
- Modelling energetic particles in the vicinity of high-speed solar wind streams with PARADISE
- Implementing the MULTI-VP Coronal Model in EUHFORIA: Results and Comparisons with the WSA Coronal Model
- Collisional and Reactive Multi-fluid Modeling of Acoustic Wave Propagation and Heating in Gravitationally Stratified Chromospheric plasma
- CME-CME Interactions as Sources of CME Helio-Effectiveness: the Early September 2017 Events
- Solar energetic particles experience EUHFORIA's CMEs in PARADISE
- Modelling the angular response of EPD/EPT: Application to the electron event observed on 21 April 2019
- Improving Modelling Areas of Open-Closed Flux in the Corona Using Remote Sensing Observations
- Developing Fast Solar Wind Modeling with EUHFORIA
- Data-driven and observation-based modeling of CMEs in the inner heliosphere with EUHFORIA
- A study of the role of CME-CME interactions on CME geo-effectiveness with EUHFORIA
- Suprathermal particles in the solar wind self-regulation
- Observation-based Sun-to-Earth simulations of geo-effective Coronal Mass Ejections with EUHFORIA
- More on the internal structure of Coronal Magnetic Eruptions
- 2.5D Numerical simulations of ICMES up to 1AU.
- Sun-to-Earth simulations of geo-effective Coronal Mass Ejections with EUHFORIA: a heliospheric-magnetospheric model chain approach
- Shaping the solar wind electron temperature anisotropy by the interplay of core and suprathermal populations
- Nonlinear Evolution of Observed Fast Streams in the Solar Wind - Micro-instabilities and Energy Exchange between Protons and Alpha Particles
- Modeling Coronal Mass Ejections with EUHFORIA: A Parameter Study of the Gibson-Low Flux Rope Model using Multi-Viewpoint Observations
- Kinetic Theory of quasi-electrostatic waves in non-gyrotropic plasmas
- <p>Modelling Solar Energetic Particle Propagation in Realistic Heliospheric Solar Wind Conditions Using a Combined MHD and Stochastic Differential Equation Approach
- Twofluid Simulations of Propagation of Slow and ALFVÉN Waves in the Partially Ionized Solar Chromosphere
- Two-fluid Modeling of Drift Waves in the Solar Atmosphere
- Three-Fluid collisional and reactive magnetic reconnection with radiative effects in chromospheric conditions
- Solar wind driven instability with non-Maxwellian distribution functions
- Kinetic Features Observed in the Solar Wind Electron Distributions
- Evolution of Anisotropic Turublence in Drifting Proton-Alpha Plasma - 2.5D Hybrid Simulations
- Data-Driven Modeling of the Coronal Magnetic Field: Comparing Time-Dependent Magnetofrictional Modeling and Nonlinear Force-free Field Extrapolations
- Partially Ionized Plasma Three-Fluid Modeling of Magnetic Reconnection in the Sun Chromosphere
- Multifluid Modeling of the Partially Ionized Chromosphere with Effects of Impact Ionization, Radiative Recombination and Charge Exchange
- Mixing of Proton and Electron Scales - Effects of Proton Temperature Anisotropy on the Electron Firehose Instability
- Three-Dimensional Magnetic Reconnection Under Low Chromospheric Conditions Using a Two-Fluid Weakly Ionized Reactive Plasma Model
- Kinetic Effects in Parametric Instabilities of Finite Amplitude Alfven Waves in a Drifting Multi-Species Plasma
- Jupiter's Main Auroral Emission for Different Solar Wind Conditions
- Implication of Kappa models in realistic parameterization of the kinetic anisotropy and the resulting instabilities in space plasmas
- Using Multi-Spacecraft Technique to Identify the Structure of Magnetic Field in CMEs
- The Evolution of the Global Coronal Shock in the June 7, 2011 Event: An MHD Simulation Study
- On the Influence of the Solar Wind Density on the Jovian Main Auroral Emission
- Global Simulations of the Magnetosphere under Sub-Alfvénic Solar Wind Conditions. (Invited)
- Electromagnetic electron whistler-cyclotron instability in bi-Kappa distributed plasmas
- The role of streamers in the deflection of coronal mass ejections: comparison between STEREO 3D reconstructions and numerical simulations
- Observational Evidence of Alfvén Wings at the Earth
- Numerical modeling of the initiation of coronal mass ejections in active region NOAA 9415
- Magnetic Field Structure in ICMEs: Comparison and Validity of Different Models
- Influence of the interplanetary shock on the radial dependence of solar energetic particle intensities
- Global Simulations of the Jovian Magnetosphere
- The MI-coupling in global simulations of the Jovian and Kronian magnetospheres
- Multi-Spacecraft Reconstruction of the Magnetic Fields InICMEs with Writhe Structure
- Trend of photospheric magnetic helicity flux in active regions generating halo CMEs
- Observational and numerical study of the 25 July 2004 event
- CME and Flare Initiation Challenge
- A Model to study Jupiter's Magnetosphere and the Ionosphere-Magnetosphere Coupling
- 0.5 - 165 MeV proton and 102 - 312 keV electron injections during the 2006 December 13 SEP event
- Global MHD simulations of Jupiter's magnetosphere: study of the ionosphere-magnetosphere coupling
- Numerical Simulations of the Jovian Magnetosphere: Influence of the Solar Wind
Linked Co-Authors
- A. Aran
- A. B. Galvin
- A. P. Rouillard
- Andrea Lani
- Anwesha Maharana
- B. Lavraud
- C. Verbeke
- Camilla Scolini
- Christian Möstl
- D. Lario
- Daniel Pacheco
- Eleanna Asvestari
- Emma E. Davies
- F. Zuccarello
- Fan Zhang
- Gang Li
- H. Fichtner
- Ioannis A. Daglis
- J. P. Eastwood
- M. Mierla
- Manuela Temmer
- Michaela Brchnelova
- Nicolas Wijsen
- Noé Lugaz
- O. Santolı́k
- P. Romano
- R. C. Allen
- R. M. Winslow
- Rachael Filwett
- Ranadeep Sarkar
- Ravindra Desai
- Rui Pinto
- Rungployphan Kieokaew
- Simon Good
- Teresa Nieves‐Chinchilla
- Vratislav Krupař
- Z. Méliani
- Zheyi Ding
- А. Бемпорад
Linked Collaborating Institutions
- Academy of Sciences of the Czech Republic, Institute of Physics
- Andreas Eckart University of Cologne, Germany
- Austrian Institute of Space Science Research
- Belgian Institute for Space Aeronomy
- COMSATS Institute of Information Technology, Islamabad, Pakistan
- Catholic University, Washington DC
- European Space Research and Technology Centre
- Goddard Space Flight Center, Astrophysics Division
- Government College University Lahore, Pakistan
- Imperial College, Department of Physics
- Imperial College, London
- Johns Hopkins University, Applied Physics Laboratory
- KF University of Graz, Institute of Geophysics, Astrophysics and Meteorology
- KF University of Graz, Institute of Physics
- Karl Franzens University of Graz, Austria
- Katholieke University of Leuven, Astronomical Institute
- Katholieke University of Leuven, Belgium
- Korea Astronomy and Space Science Institute
- Leibniz Institute for Astrophysics, Potsdam
- Maria Curie-Sklodowska University, Poland
- NASA Ames Research Center
- NASA Goddard Space Flight Center, Maryland
- NJIT, Department of Physics
- National and Kapodistrian University of Athens, Greece
- New Jersey Institute of Technology
- ONERA, Toulouse
- Observatoire de Paris, France
- Observatoire de Paris, Laboratoire de l'Universe et ses Theories
- Pakistan Institute of Engineering and Applied Sciences
- Romanian Academy of Sciences
- Royal Observatory of Belgium
- Royal Observatory of Belgium, Department of Solar Physics
- Ruhr University, Bochum, Germany
- Ruhr University, Bochum, Institute for Theoretical Physics
- Southwest Research Institute, Texas
- Universite Catholique de Louvain-la-Neuve, Earth and Life Institute
- University of Alabama, Huntsville
- University of Alcala, Spain
- University of Barcelona, Department of Astronomy and Meteorology
- University of Barcelona, Spain
- University of California, Berkeley, Space Sciences Laboratory
- University of Catania, Italy
- University of Chile
- University of Cologne, Institute for Geophysics
- University of Concepcion, Chile
- University of Hawaii, Manoa, Institute for Astronomy
- University of Helsinki, Department of Physics
- University of Helsinki, Finland
- University of Iowa
- University of Kiel, Institute for Experimental and Applied Physics
- University of New Hampshire
- University of New Hampshire, Department of Physics and Astronomy
- University of Science and Technology of China, Department of Earth and Space Sciences
- University of Science and Technology of China, Hefei
- University of Turku, Finland
- University of Zagreb, Hvar Observatory
- Von Karman Institute For Fluid Dynamics, Belgium
- Weizmann Institute of Science, Israel
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