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LOCATION:Foyer 2nd Floor
DTSTART;TZID=Europe/Stockholm:20220628T090000
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UID:submissions.pasc-conference.org_PASC22_sess181_pos102@linklings.com
SUMMARY:P52 - Semilagrangian Hybrid Kinetic/Driftkinetic Code for the Stud
 ying of Fusion Plasmas
DESCRIPTION:Poster\n\nP52 - Semilagrangian Hybrid Kinetic/Driftkinetic Cod
 e for the Studying of Fusion Plasmas\n\nMustonen\n\nModeling of the tokama
 k edge plasma is one of the most important problems we have to solve to ac
 hieve understanding of physics, taking place in the device. A lot of curre
 ntly existing and well known codes used by the community employ gyrokineti
 c system of equations. This is a framework to resolve kinetic equations on
  a reduced 5D space, applicable for charged particles moving in a strong b
 ackground magnetic field and valid until the phenomena scale gets as small
  as the Larmor radius. Presence of steep gradients at the edge region prev
 ents us from using GK models in their present state. One of the ways to av
 oid this complication is to use a fully kinetic 6D framework. However, the
  immense computational cost of such a direct approach makes it ill-suited 
 for longtime simulations. Here we discuss the hybrid framework and its imp
 lementation in the ssV: a semi Lagrangian code with fully kinetic ions and
  driftkinetic electrons to completely resolve ion physics and save computa
 tional resources on electrons, while retaining the most important kinetic 
 effects.\n\nDomain: Physics
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