Jolliet, S.*; Angelino, P.*; Bottino, A.*; Idomura, Yasuhiro 
; Villard, L.*
Global particle-in-cell (PIC) simulations are a very useful tool for studying the time evolution of turbulence induced by ion-temperature-gradient (ITG) instabilities. Unfortunately, the linear code LORB5 and its non-linear version ORB5 require high computational power. In order to study more sophisticated models, we need to optimize these codes. We will focus on LORB5, which uses a cylindrical grid (r,z) for solving the Vlasov equation and a (s,
) grid for the Poisson equation. The approach presented in this work consists of implementing the gyrokinetic model using a single (s,
) grid. Here is the straight-field-line poloidal coordinate. A method to avoid the singularity at the magnetic axis is presented, and a benchmark with the CYCLONE case is shown.
Language |
: | English |
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Journal |
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Volume |
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Number |
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Pages |
: | p.345 - 351 |
Publication Year/Month |
: | 2004/00 |
Meeting title |
: | Joint Varenna-Lausanne International Workshop on Theory of Fusion Plasmas 2004 |
Held date |
: | 2004/08 |
Location (city) |
: | Varenna |
Location (country) |
: | Italy |
Paper URL |
: |
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Keywords |
: | Gyrokinetics; Particle Code; Ion Temperature Gradient Driven Turbulence; Straight-field-line Poloidal Coordinate |
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