Integrated Engineering Software LORENTZ HF

Description
LORENTZ-HF, the high frequency version of LORENTZ, is an easy-to-use 3D full-wave electromagnetic simulator based on CFIE (combined-field integral equation) combined with the ability to analyze charged particle trajectories in the presence of high frequency electromagnetic fields. LORENTZ-HF uses the Method of Moments (MoM) (or Boundary Element Method) coupled with Physical Optics found in SINGULA and is coupled with the ray tracing and powerful emission regime and secondary emission capabilities of LORENTZ. LORENTZ-HF also calculates near and far field results, power and directive gain, radar cross-section, axial ratio, and input impedance, admittance and scattering parameters. LORENTZ-HF is uniquely suited for early-stage simulation and resolution of the Multipactor Discharge phenomenon affecting many high power vacuum electronics device designs.
  • LORENTZ HF - Integrated Engineering Software
    Integrated Engineering Software
Datasheet
Description
LORENTZ-HF, the high frequency version of LORENTZ, is an easy-to-use 3D full-wave electromagnetic simulator based on CFIE (combined-field integral equation) combined with the ability to analyze charged particle trajectories in the presence of high frequency electromagnetic fields. LORENTZ-HF uses the Method of Moments (MoM) (or Boundary Element Method) coupled with Physical Optics found in SINGULA and is coupled with the ray tracing and powerful emission regime and secondary emission capabilities of LORENTZ. LORENTZ-HF also calculates near and far field results, power and directive gain, radar cross-section, axial ratio, and input impedance, admittance and scattering parameters. LORENTZ-HF is uniquely suited for early-stage simulation and resolution of the Multipactor Discharge phenomenon affecting many high power vacuum electronics device designs.
Datasheet

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LORENTZ HF - - Integrated Engineering Software
Integrated Engineering Software
Winnipeg, Manitoba, Canada
LORENTZ HF
LORENTZ HF
LORENTZ-HF, the high frequency version of LORENTZ, is an easy-to-use 3D full-wave electromagnetic simulator based on CFIE (combined-field integral equation) combined with the ability to analyze charged particle trajectories in the presence of high frequency electromagnetic fields. LORENTZ-HF uses the Method of Moments (MoM) (or Boundary Element Method) coupled with Physical Optics found in SINGULA and is coupled with the ray tracing and powerful emission regime and secondary emission capabilities of LORENTZ. LORENTZ-HF also calculates near and far field results, power and directive gain, radar cross-section, axial ratio, and input impedance, admittance and scattering parameters. LORENTZ-HF is uniquely suited for early-stage simulation and resolution of the Multipactor Discharge phenomenon affecting many high power vacuum electronics device designs.

LORENTZ-HF, the high frequency version of LORENTZ, is an easy-to-use 3D full-wave electromagnetic simulator based on CFIE (combined-field integral equation) combined with the ability to analyze charged particle trajectories in the presence of high frequency electromagnetic fields.

LORENTZ-HF uses the Method of Moments (MoM) (or Boundary Element Method) coupled with Physical Optics found in SINGULA and is coupled with the ray tracing and powerful emission regime and secondary emission capabilities of LORENTZ.

LORENTZ-HF also calculates near and far field results, power and directive gain, radar cross-section, axial ratio, and input impedance, admittance and scattering parameters.

LORENTZ-HF is uniquely suited for early-stage simulation and resolution of the Multipactor Discharge phenomenon affecting many high power vacuum electronics device designs.

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Technical Specifications

  Integrated Engineering Software
Product Category Antenna Design Software
Product Name LORENTZ HF
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