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Electrostatics Toolkit
Description: Electric field calculations for applications such as high-voltage engineering and capacitance evaluation. Regions may represent electrodes, dielectrics, conductors or space-charge. Advanced features include non-linear dielectrics and arbitrary spatial variations of conductivity and space-charge density.
Magnet Design Toolkit
Description: Versatile program addresses the full range of magnetostatic calculations. Program handles permanent magnets with non-linear demagnetization curves, saturation effects in magnetic materials, coils of arbitrary shape and anisotropic materials.
Static Field Analysis Toolkit
Description: Comprehensive package for electrostatics and magnetostatics. Regions in electric field solutions may represent electrodes, dielectrics, conductors or space-charge. Magnetic field program handles coils and non-linear magnetic materials.
Trak Charged Particle Toolkit
Description: Trak has become a world standard for electron/ion gun design and simulations of charged-particle devices. Integrated software suite for calculating electric/magnetic fields and modeling charged-particle guns and transport systems.
Electromagnetics Toolkit
Description: Comprehensive package for frequency- and time-domain electromagnetic simulations. WaveSim simulates both closed and open systems with the option for material losses. EMP tracks any user-specified electromagnetic pulses through complex geometries. Applications include resonator design, electromagnetic scattering, EM interference and pulsed-power devices.
Universal EField Toolkit
Description: Calculation of electric fields across the full frequency range. EStat covers dielectric or conductive solutions in complex material assemblies. RFE2 calculates AC/RF fields created by electrodes in lossy dielectrics with combined effects of real and displacement currents.
Universal BField Toolkit
Description: This package handles the full frequency range of magnetic field solutions including permanent magnets, AC/RF fields with eddy currents and pulsed field assemblies with conductive materials. Includes both frequency- and time-domain solvers.
RF Heating Toolkit
Description: Unitized package to calculate RF electric field distributions and resultant heating in materials. Applications include material processing, biomedical procedures and hyperthermia research. RFE2 determines RF electric fields generated by electrodes in conductive dielectric materials while TDiff calculates the resulting heating effects. Advanced features include thermal radiation boundaries and perfusion contributions.
Induction Heating Toolkit
Description: Coupled magnetodynamic/thermal calculations. Nelson finds self-consistent AC/RF magnetic fields with eddy current effects and records power density as a function of position. TDiff uses the information for steady-state or time-dependent thermal calculations.