Unstructured Quasi-Static EM Solvers (P-EM-UQS)

The Unstructured Quasi-Static Electromagnetic Solvers (P-EM-UQS) are implemented to model static and quasi-static EM regimes efficiently by applying the finite element method on unstructured meshes. The solvers complement the established Sim4Life P-EM-QS solvers and support message passing interface (MPI) parallelization.

Contents	(P-EM-UQS) offer a substantial increase in speed and accuracy in multi-scale applications and supports unstructured meshes (e.g., support for localized refinement, or conformal adaptivity)The benefits of the solvers include unique semi-insulating layers, anisotropic tensorial inhomogeneous electrical conductivity distributions (e.g., image-based). All solvers come with a dedicated Python API that allows power-users to further automatize processes or perform advanced analyses.
Applications	MRI RF Coil Design w/ Gradient Interaction MRI Tx RF Coil Design w/ Gradient Interaction & Safety MRI Gradient Coil Design EEG / ECG Deep Brain & Spinal Cord Implants Transcranial Magnetic or Current Stimulation LF Hyperthermia (e.g., with nanoparticles) Magneto Hemo-Dynamics Sound Exposure (e.g., in MRI) Transcranial Magnetic or Current Stimulation Neuro-Prosthetics (retina, cochlea, vestibular, motor) Neuro-Motoric Incapacitation EM Neuro-Stimulation High LF EM Field Safety Assessment (e.g., MR Gradient Coils) Physiotherapy Heating Magnetic Navigation Defibrilator Analysis Pacemakers
Characteristics	Electrostatic and Electro quasi-static Magnetostatic and Magneto quasi-static FEM based (unstructured meshes) Support for localized refinement, or conformal adaptivity Tetrahedral volume mesher Robust octree-based adaptive mesher Unique semi-insulating layers Anisotropic tensorial inhomogeneous electrical conductivity distributions (e.g., image-based) Specialized visualization and analysis tools Handling and visualization of unstructured result fields Dedicated Python API MPI parallelization

Unstructured Quasi-Static EM Solvers (P-EM-UQS)

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