Basic Fusion’s Magnetized Goal Fusion method includes compressing a spherical tokamak plasma to realize fusion situations. This presentation will element how the COMSOL Multiphysics® software program was used within the LM26 fusion demonstration, which has been in operation since February 2025. Initially, COMSOL® was used to mannequin the magnetomechanical compression of small-scale lithium rings and cylinders. These 2D axisymmetric fashions, which coupled the nonlinear strong mechanics, magnetic subject, and warmth switch modules, have been validated towards high-speed imagery and laser diagnostics from these experiments. The validated fashions have been then instrumental in defining the LM26 compressor design and working situations.
A central problem is that plasma equilibrium traits and lithium liner mannequin parameters must be adjusted throughout a compression shot. Whereas some materials testing was performed on lithium samples in rigidity and compression, the investigated vary was inadequate to cowl all of the experimental situations of LM26. To beat this, a Bayesian inference reconstruction course of was used to unravel an inverse drawback. This course of started by recreating the lithium liner’s compression sequence utilizing a parametric sweep of COMSOL Multiphysics fashions, which have been constrained by experimental structured mild reconstruction (SLR) and photon doppler velocimetry (PDV) measurements in LM26. This methodology enabled Basic Fusion to offer exact magnetic flux boundary situations to inside Grad–Shafranov magnetohydrodynamic (MHD) solvers. The MHD solvers, in flip, have been used to reconstruct the plasma equilibrium and decide the plasma density profiles wanted to calculate its temperature. This work is crucial, as Basic Fusion goals to have LM26 attain a plasma temperature of 1 keV, with a future purpose of 10 keV.
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