THERMAL SIMULATIONS

Key Features

• EM-coupled or uncoupled thermal simulation, extended Pennes Bioheat Equation for BioEM
• Discrete vessel model for BioEM
• Multiple EM sources (not bound to single simulation)
• Correlated/uncorrelated superposition of fields, individual scaling
• T dependent tissues (electric conductivity , SAR, blood perfusion)
• Time dependent specific heat generation rates, tensorial heat diffusion
• Conformal subcell T solver
• Flexible boundary-conditions (Neumann, Dirichlet, mixed, for every interface and every direction)
• Thermal ablation (tissue damage) measure

Examples