Title :
Bayesian Inference of Equilibrium Magnetic Field Geometry on the MAST Experiment
Author :
Von Nessi, Gregory T.
Author_Institution :
Res. Sch. of Phys. & Eng., Australian Nat. Univ., Canberra, ACT, Australia
Abstract :
Inference of plasma equilibrium geometry in tokamak fusion plasmas constitutes a challenging inference problem, given intrinsic difficulties surrounding the making of direct measurements in such physical systems. Traditionally, this problem has been handled by codes that attempt to reconcile solutions of the Grad-Shafranov (GS) equation with external magnetic diagnostics. Due to this inference being an intrinsically ill-posed problem, these codes suffer from numerical difficulties that require experiment-specific algorithms to handle. Here, we present a method to directly infer plasma equilibrium structure based on Bayesian analysis, which does not require solving the GS equation nor the use of any experiment-specific numerics.
Keywords :
Tokamak devices; belief networks; inference mechanisms; plasma diagnostics; plasma toroidal confinement; Bayesian analysis; Bayesian inference; Grad-Shafranov equation; MAST experiment; equilibrium magnetic field geometry; external magnetic diagnostics; intrinsically ill-posed problem; plasma equilibrium geometry; plasma equilibrium structure; tokamak fusion plasmas; Bayesian methods; Discharges; Equations; Particle beams; Tokamaks; Uncertainty; Fusion reactors; nuclear and plasma sciences; tokamak devices; tokamaks;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2011.2162967
