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SUMMARY:Recent Progress Towards Integrated Modeling of Plasma Edge in Toka
 maks
DTSTART:20160909T140000
DTEND:20160909T150000
DTSTAMP:20260412T174325Z
UID:0aa1e00a96d82e4dfc22afa268542337b9a683cfa63432f3cb5b4e0d
CATEGORIES:Conferences - Seminars
DESCRIPTION:Alexei Pankin\, Lawrence Livermore National Lab.\, USA\nModeli
 ng for H-mode pedestal dynamics requires time dependent integrated underst
 anding of edge kinetic neoclassical and turbulence physics\, core turbulen
 ce\, MHD physics\, large scale edge localized modes such as ELMs\, neutral
 \, impurity and atomic physics\, scrape-off-layer physics\, neutral recycl
 ing\, and energetic particle influx from the plasma core. Wide ranges of t
 ime and spacial scales are necessary to resolve in order to predict the dy
 namics of the tokamak plasma edge. It is unpractical or even impossible to
  implement all this physics in a single code that would need to resolve th
 e smallest spacial and shortest time scales for the prediction of plasma b
 ehavior on long transport scales. In order to address the complexity the e
 dge tokamak plasmas\, an integrated modeling approach is used in our studi
 es. In this report\, we present the results related to the modeling of the
  H-mode pedestal dynamics and stability\, as well as the modeling of the S
 OL width and SOL flows using a combination of codes. These codes include t
 he neoclassical kinetic XGC0 code\, ideal MHD ELITE code\, and extended MH
 D NIMROD code.
LOCATION:PPB 019
STATUS:CONFIRMED
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