INTEGRATED's LORENTZTM suite of CAE programs provide sophisticated simulation and design tools customized for charged particle trajectory analysis in 2D/RS and 3D. The diverse applications of LORENTZTM include studying the motion of particles in traps such as a Penning trap, or the paths of particles through optical components such as bending magnet and multiple focusing magnets, or the behavior of beams such as the dual grid ion gun.
LORENTZTMis available in combination with INTEGRATED's well-established electric and magnetic field solvers. These solvers have proven their reliability over decades of use in applications as diverse as motor design, antennas, and high voltage transmission lines. Depending on the accompanying field solvers, several varieties of LORENTZTMprograms are available for applications involving electric(E), magnetic(M) or combined ?eld analysis (EM) in 2D and 3D known as LORENTZ-2ETM, LORENTZ-2MTM, LORENTZ-2EMTM, LORENTZ-3ETM, LORENTZ-3MTMand LORENTZ-3EMTM. For the high frequency option, please choose LORENTZ-HFTM.
INTEGRATED's Parametric and batch utilities may be used to run automatic variations on the LORENTZTMmodel for purposes such as design optimization or tolerance testing.
Learn about LORENTZTMSolver Methods and our Specialized Beam Analysis Physics Options.
Thanks to the parallelization of our programs (included in our packages at no extra cost) the solution speed is certainly a major benefit for designers requiring beam analysis and particle trajectory software.
Features
2D/RS and 3D charged particle trajectory field solver for a diverse range of applications.
Optical (beam) axis in the 3D package to provide a convenient reference for analyzing a beam.
Quasi-transient mode that rebuilds the field at different times for arbitrary time dependencies, which is much faster than doing a full transient solution.
At no extra cost, our software packages include:
Choice of solvers: To ensure you have confidence in the solution and for independent verification, both BEM and FEM methods are included in the same software package to suit your specific application needs. Not every solver fits every application, no “one size fits all”.
Choice of optimization tools: Parametric Analysis for those who need fast and easy optimization with a short learning curve. API and Scripting give more power to advanced users. Both tools are available in the same package.
Built-in material libraries: Customize and create your own library for easy access to the materials you use.
Integration with MATLAB: Users' MATLAB code can include function calls to the INTEGRATED API to build geometry, assign physical parameters, solve, and obtain results.
Intuitive interface that can be easily customized according to user preferences (overall appearance, toolbars, solvers, backgrounds, defaults, etc.)
