Spacecraft Charging - Hazard Causes, Hazard Effects, Hazard Controls

Spacecraft Charging - Hazard Causes, Hazard Effects, Hazard Controls

College of Science and Engineering via YouTube Direct link

Intro

1 of 24

1 of 24

Intro

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Spacecraft Charging - Hazard Causes, Hazard Effects, Hazard Controls

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  1. 1 Intro
  2. 2 Executive Summary
  3. 3 Presentation Outline
  4. 4 and Processes: General Principles Why do we care about this?
  5. 5 and Processes: Spacecraft Charging Summary
  6. 6 and Processes: Summary charging discharging circuit
  7. 7 and Processes: General Principles. Internal vs. Surface Charging
  8. 8 Metal structure with thin dielectric coating - ISS MM/OD shields
  9. 9 The Charge Balance Equation
  10. 10 Spacecraft Charging Environments: LEO Ionosphere
  11. 11 LEO: Ionospheric Plasma and Geomagnetic Field Charging Environments
  12. 12 Spacecraft Charging Environments: Magnetosphere and GEO
  13. 13 Environments: Geomagnetic Storm and Aurora
  14. 14 Spacecraft Charging Environments and Processes Space Plasmas and Energetic Particles
  15. 15 Space Plasma Environments - The Numbers
  16. 16 Energetic Charged Particle Environments
  17. 17 Spacecraft Surface Charging Environment Risks: Geo-space
  18. 18 A Simple Worked Example: Solar Array Driven Charging in
  19. 19 ISS Charging Measurements: Floating Potential Measurement
  20. 20 The other place you might not expect...
  21. 21 LEO Auroral Charging Environments
  22. 22 Another Simple, Worked Example: Auroral Charging vs. Capacitance
  23. 23 GEO and Interplanetary Charging Environments
  24. 24 Internal Charging

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