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Laser-plasma-based Space Radiation Reproduction in the Laboratory.

B Hidding1, O Karger2, T Königstein3

  • 1SUPA, Department of Physics, University of Strathclyde, Glasgow, UK.

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|February 9, 2017
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Summary
This summary is machine-generated.

Laser-plasma-accelerators successfully mimicked space radiation in the lab, enabling new tests for electronic radiation hardness. This breakthrough enhances space mission reliability by simulating space electron, proton, and ion flux.

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Area of Science:

  • Space Science
  • Plasma Physics
  • Particle Acceleration

Background:

  • Space radiation poses significant risks to spacecraft electronics and astronauts.
  • Simulating the broadband spectral flux of space radiation, particularly from radiation belts, is challenging with conventional sources.

Purpose of the Study:

  • To reproduce relativistic, broadband space radiation flux in a laboratory setting.
  • To utilize this simulated space radiation for testing the radiation hardness of space electronics.

Main Methods:

  • Employing laser-plasma-accelerators to generate broadband Maxwellian-type particle flux.
  • Replicating the spectral characteristics of space electrons, protons, and ions.

Main Results:

  • Successful generation of laboratory-based radiation mimicking space electron, proton, and ion flux.
  • Demonstrated the use of this man-made radiation for effective testing of space electronic radiation hardness.

Conclusions:

  • Laser-plasma-accelerators offer a viable method to simulate space radiation conditions.
  • These accelerators can complement existing sources, potentially alleviating beamtime shortages and enabling advanced testing for improved space mission reliability.