INTEGRATED’s LORENTZ™ 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 LORENTZ™ 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.
LORENTZ™ is 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 LORENTZ™ programs are available for applications involving electric(E), magnetic(M) or combined ﬁeld analysis (EM) in 2D and 3D known as LORENTZ-2E™, LORENTZ-2M™, LORENTZ-2EM™, LORENTZ-3E™, LORENTZ-3M™ and LORENTZ-3EM™. For the high frequency option, please choose LORENTZ-HF™.
INTEGRATED’s Parametric and batch utilities may be used to run automatic variations on the LORENTZ™ model for purposes such as design optimization or tolerance testing.
Learn about LORENTZ™ Solver 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.
Dr. Hung Quang HOANG
Luxembourg Institute of Science and Technology (LIST)
Materials Research and Technology (MRT) Department
“LORENTZ™ has very friendly user interface and the flexibility to develop CAD-like models”
Dr. Weiqiang Sun
“The best feature of LORENTZ™ is the combination of field calculation and trajectories calculation with high accuracy. It is quite convenient to check the field setting and to obtain the trajectories immediately. The calculation precision is satisfying if you make the right setting.”
Blanchard & Company Inc., USA
“Comparison of our real hardware measured data with LORENTZ™™ has correlated extremely well and helped us save significant time and money.”
Applications Engineering Manager,
Dexter Magnetic Technologies, Inc., USA
“LORENTZ™‘s ability to import any computational domain or structure from CAD makes it extremely useful.”
Assistant Professor, Department of chemistry,
Oregon State University
“LORENTZ™ has many intuitive features and one of them is to successfully analyze trajectory transient conditions. As far as customer service and technical support is concerned, the staff at Integrated Engineering Software is quick to respond to issues and provide solutions to any software problems.”
Mr. Eric Miller
Research Scientist, Moxtek
“I have been using LORENTZ™ a long time now. I am very pleased with the BEM solver and trajectory analysis feature of LORENTZ™ software. The ability to solve in multiple current emission regimes is the most unique feature to allow us to create powerful solutions.”
Staff Scientist, FEI/Thermo Fisher Scientific
“LORENTZ™ is an indispensable tool for electric and magnetic field calculations. To the best of our knowledge, no other software includes the BEM solver with CAD import capability which is extremely important for our application.”
Senior Scientist, EXCILLUM AB
“I have been playing around with the API this weekend. It’s a very powerful and a super useful feature! Good work guys! So far I have been using Excel to interface with LORENTZ™ and it works like a charm with both 2EM & 3EM.”