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Updated: Oct 29, 2025

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FEbeam: Cavity and electron emission data conversion, processing, and analysis. A freeware toolkit for rf injectors.

Mitchell Schneider1, Emily Jevarjian1, Jiahang Shao2

  • 1Department of Electrical and Computer Engineering, Michigan State University, East Lansing, Michigan 48824, USA.

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Summary

FEbeam software analyzes field emission cathode performance in RF injectors by extracting key parameters from Fowler-Nordheim equations. This open-source tool processes beam imaging data and is adaptable for various RF field emission injectors.

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Area of Science:

  • Physics
  • Engineering
  • Materials Science

Background:

  • Field emission cathodes are crucial components in radio-frequency (RF) injectors.
  • Accurate analysis of cathode performance is essential for optimizing injector efficiency and stability.
  • Existing methods for field emission analysis can be complex and time-consuming.

Purpose of the Study:

  • To introduce FEbeam, an integrated software interface for processing field emission data.
  • To enable the extraction of critical field emission parameters, including field enhancement factor, local field, and effective emission area.
  • To facilitate the analysis of beam imaging micrographs through its integration with FEpic software.

Main Methods:

  • Utilizes the Fowler-Nordheim equations for data extraction.
  • Processes data from field emission measurements in RF injectors.
  • Integrates with FEpic for the analysis of beam imaging micrographs.

Main Results:

  • FEbeam successfully extracts field enhancement factor, local field, and effective emission area.
  • The software is designed for the Argonne Cathode Test-stand but is adaptable to other RF field emission injectors.
  • FEbeam provides a streamlined approach to field emission cathode performance analysis.

Conclusions:

  • FEbeam offers a comprehensive solution for analyzing field emission cathode performance in RF injectors.
  • The software's open-source nature and adaptability promote wider adoption and development.
  • FEbeam enhances the capability to understand and optimize critical parameters in particle accelerators.