chercheur en milieu académique*chercheur en entreprise, R&D du secteur privé*expertise, études et conseils dans des organisations, cabinets ou sociétés fournissant des prestations intellectuelles, des expertises scientifiques, prospectives ou stratégiques*Plasma Physics: Modelling, Numerical Simulation and Applications, Particle Tracking in Magnetohydrodynamic events, interaction between Magnetohydrodynamic and kinetic Theory

Coordonnées

cristian.sommariva@hotmail.it

Adresse professionnelle

batiment 513 CEA-Cadarache/DRF/IRFM/STEP/GPAM 13115 ST PAUL LES DURANCE
04 42 25 29 94

Techniques maîtrisées

- Knowledge in numerical methods and schemes, domain decomposition methods, optimisation methods, Statistical Monte-Carlo methods - Knowledge in physics, especially in Gas-Dynamics and basic knowledge in Plasma Physics - Programming Language: Fortran90, C, Matlab, Scilab, Java (basic) - HPC Standards: MPI, OpenMP, CUDA (Basic)

Compétences

- Work organisation and coordination, - Team Working and team coordination, - Working on different aspects (fields) of the topic

Doctorat

Intitulé : PHYSIQUE & SCIENCES DE LA MATIERE - Spécialité : ENERGIE, RAYONNEMENT ET PLASMA
1ère inscription en thèse : Novembre 2014
École doctorale : Physique et Sciences de la Matière
Date de soutenance de la thèse : 18 Décembre 2017
Sujet : Dynamique de particules tests dans des simulations de magnétohydrodynamique non-linéaire 3D et application à la génération d’électrons découplés dans les disruptions des tokamaks
Directeur de thèse : Peter BEYER
Co-directeur : Eric NARDON
Unité de recherche : CEA Cadarache - IRFM
Intitulé de l'équipe :

Master

Intitulé : Mathématiques et Applications
Septembre 2014 - ISAE-SUPAERO
Mention : Bien

Langues vivantes

Anglais : B2 - Intermédiaire supérieur
Français : B2 - Intermédiaire supérieur
Italien : C2 - Maternel

Production scientifique

  • Test particles dynamics in the JOREK 3D non-linear MHD code and application to electron transport in a disruption simulation
    Nuclear Fusion 2017
    C. Sommariva, E. Nardon, P. Beyer, M. Hoelzl, G. T. A. Huijsmans, D. van Vugt, and JET Contributors
    https://doi.org/10.1088/1741-4326/aa95cd
  • INVESTIGATING PRIMARY RUNAWAY ELECTRON GENERATION MECHANISMS WITH TEST PARTICLES IN NON-LINEAR MHD DISRUPTION SIMULATIONS
    Proceedings of the 44th European Physical Society conference on Plasma Physics 2017
    C. Sommariva, E. Nardon, G.T.A. Huijsmans, M. Hoelzl, P. Beyer, D. van Vugt and JET Contributors
  • SIMULATING RUNAWAY ELECTRONS DURING DISRUPTIONS WITH TEST PARTICLES IN THE JOREK CODE
    Proceedings of the 43rd European Physical Society Conference on Plasma Physics 2016
    C. Sommariva, E. Nardon, A. Fil, P. Beyer, G.T.A. Huysmans, M. Hoelzl, D. van Vugt, K. Sarkimaki and JET Contributors
  • MODELING RUNAWAY ELECTRON DYNAMICS IN REALISTIC FIELDS FROM 3D NON-LINEAR MHD DISRUPTION SIMULATIONS
    597th WE-Heraeus seminar on stochasticity in fusion plasmas 2015
    C. Sommariva, E. Nardon, A. Fil, G. T .A. Huijsmans, M. Hoelzl
  • Simulating runaway electrons during disruptions with test particles in the JOREK code
    43rd EPS Conference on Plasma Physics 2016
    C. Sommariva, E. Nardon, A. Fil, P. Beyer, G.T.A. Huysmans, M. Hoelzl,D. van Vugt, K.Sarkimaki , and JET Contributors
  • Simulating runaway electrons during disruptions: Introduction of fast particle simulation in JOREK code
    Journées de l'Ecole Doctorale 2016
    C. Sommariva, E. Nardon, P. Beyer, G.T.A. Huysmans, M. Hoelzl,cD. van Vugt, K.Sarkimaki
  • Investigating primary runaway electron generation mechanisms with test particles in non-linear MHD disruption simulations
    44th EPS Conference on Plasma Physics 2017
    C. Sommariva, E. Nardon, G.T.A. Huysmans,2, M. Hoelzl, P. Beyer, D. van Vugt and JET Contributors
  • Losses of runaway electrons in MHD-active plasmas of the COMPASS tokamak
    Nuclear Fusion 2017
    O. Ficker et al.
  • Runaway electron generation and mitigation on the European medium sized tokamaks ASDEX Upgrade and TCV
    Nuclear Fusion 2017
    G. Papp et al.
  • Development of a new numerical method for the resolution of the Boltzmann-Fokker-Planck equation for plasma radiography purpose
    Master of Science Thesis 2014
    C. Sommariva, E. Ducret, S. Micheletti
  • Implementation of a gas-surface interaction model for gas-kinetic simulation schemes applied to hypersonic flow
    rapport von Karman Institute for fluid dynamics 2013
    C. Sommariva, E. Torres, T. Magin
  • Advancements in the modeling of fast particles in realistic fields using JOREK code
    Runaway Electron Research Project meeting 2017
    C. Sommariva et al.
  • Model Runaway Electrons in JET as test particles in JOREK
    JOREK enabling research project report 2017
    C. Sommariva et al.
  • Modeling of gas penetration, MHD activity and Runaway Electrons in disruptions mitigated by massive gas injection
    Theory and Simulation of disruption workshop 2016
    C. Sommariva et al.
  • Model RunawayElectrons in JET as test particles in JOREK
    Eurofusion meeting on Disruptions 2016
    C. Sommariva et al.
  • Modeling Runaway Electrons dynamics in realistic fields from 3D non-linear MHD disruption simulations
    Runaway Electrons Enabling research project report 2016
    C. Sommariva et al.
  • Runaway Electron Modeling in JOREK
    JOREK Enabling Research Project report 2016
    C. Sommariva et al.
  • Runaway Electron Modeling in JOREK
    Runaway Electron Eneabling Research Project 2015
    C. Sommariva et al.
  • Runaway Electron Modeling in JOREK
    JOREK Enabling Research Project report 2015
    C. Sommariva et al.