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DTSTART;TZID=Europe/Stockholm:20230626T140000
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UID:submissions.pasc-conference.org_PASC23_sess153@linklings.com
SUMMARY:MS1F - Exascale Plasma Simulations, Methods and Technologies for F
 usion, Plasma Accelerator and Space Physics Research (Part 1/2)
DESCRIPTION:Minisymposium\n\nPlasmas constitute paradigmatic examples of c
 omplex physical systems, involving nonlinear, multiscale processes far fro
 m thermodynamic equilibrium. HPC and virtual prototyping play an increasin
 gly crucial role in explaining and predicting observations as well as in d
 esigning more effective plasma systems and manufacturing processes. This p
 rovides novel pathways to reducing the risks, costs, and time often associ
 ated with the design and construction of new devices and large experimenta
 l facilities. The present mini-symposium brings together scientists, resea
 rchers, and practitioners from plasma physics, applied mathematics, and co
 mputer science (incl. HPC, computational science, software engineering, an
 d data analytics) to discuss computational tools and methodologies needed 
 to tackle critical grand challenges in plasma physics: optimising magnetic
  confinement fusion devices, developing new accelerator technologies, and 
 predicting space weather. Meanwhile, the tools and techniques devised in t
 hese contexts are applicable to a much wider range of problems involving n
 atural and laboratory plasmas and fluids.\n\nPlasma in Extreme Conditions 
 - QED and Particle-In-Cell for the Next Generation of Laser-Matter Interac
 tions\n\nThe next generation of lasers will access intensities above 10^23
  W/cm^2. When plasmas or relativistic electron beams interact with these l
 asers, energy loss due to radiation emission, or quantum effects such as e
 lectron-positron pair creation become important for their dynamics. Repeat
 ed occurrence...\n\n\nMarija Vranic (Instituto Superior Técnico)\n--------
 -------------\nFully Kinetic Modelling of the Tokamak Scrape-Off Layer\n\n
 Plasma edge in magnetic confinement fusion plasma devices consists of a mi
 xture of a multi-component plasma and neutral particles interacting nonlin
 early with each other, as well as with plasma facing components of fusion 
 device. Modelling of such a system represents an extremely challenging tas
 k re...\n\n\nDavid Tskhakaya (IPP), Jeremy Williams and Stefano Markidis (
 KTH Royal Institute of Technology), Stefan Costea (LeCAD Laboratory), and 
 Marta Garcia (Barcelona Supercomputing Center)\n---------------------\nObj
 ect Storage - Targeting Fusion Plasma Simulations at the Exascale\n\nReduc
 ing the clock speed as well as storage at the exascale level is a huge cha
 llenge in computational science. Simulations of fusion plasma that involve
 s various time scales is a classic example of this magnificent problem. Wi
 th the flattening of clock speeds, the need for parallelization has becom.
 ..\n\n\nDebasmita Samaddar (University of Chicago)\n---------------------\
 nSix-Dimensional Hybrid-Vlasov Modelling of the Earth's Magnetosphere on L
 UMI\n\nWe present an overview of current developments of the hybrid-Vlasov
  model Vlasiator, which we use to model the Earth's magnetosphere in the f
 ull 3D+3V position and velocity spaces. The use of static adaptive mesh re
 finement (AMR) for the spatial discretisation of the plasma's distribution
  function w...\n\n\nYann Pfau-Kempf, Urs Ganse, Markus Battarbee, Konstant
 inos Papadakis, Leo Kotipalo, and Miro Palmu (University of Helsinki) and 
 Minna Palmroth (University of Helsinki, Finnish Meteorological Institute)\
 n\nDomain: Engineering\n\nSession Chair: Jeremy Johnathan Williams (KTH Ro
 yal Institute of Technology)
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