LORENTZ

Lorentz
Particle paths inside a penning trap

LORENTZ is a computer program for simulating the effects of electric and magnetic fields on the motion of particles. 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 sold 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 LORENTZ is able to include the effects of beam current and charge in the electric and magnetic field solutions.

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.

LORENTZ HF

Applications

Charged Particle Beams

  • Electron guns
  • Ion guns
  • Ion implanters
  • Nanotube field emitters
  • Sputtering sources
  • X-ray
  • Ion propulsion

Beam Optics

  • Focusing electrodes
  • Steering magnets
  • Electron microscopes
  • Multipole beamline magnets

Charged Particle Trajectories

  • Ion mobility spectroscopy
  • Ion traps
  • Ion mass spectrometers
  • Time of flight
  • Deflector plates
  • Microchannel plates
  • Multipaction
  • Photomultiplier tubes

LORENTZ v9.0 Introduction

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