Why does pressure affect air ionization?

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SUMMARY

This discussion focuses on the relationship between pressure and air ionization, highlighting that high pressure suppresses ionization due to the increased mass in a given volume. The probability of ionization is directly proportional to the mass present, affecting how air responds to ionizing radiation from external sources. Additionally, once ions or electrons are generated, the application of electric or magnetic fields can lead to further ionization through accelerated charged particles. This process is influenced by complex phenomena such as Paschen breakdown, which relates to mean free paths and energy transfer before neutralization occurs.

PREREQUISITES
  • Understanding of ionization processes in gases
  • Familiarity with ionizing radiation concepts
  • Knowledge of electric and magnetic field interactions with charged particles
  • Basic grasp of Paschen breakdown and mean free path theory
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  • Research Paschen breakdown and its implications in gas ionization
  • Study the effects of electric fields on charged particle dynamics
  • Explore ionization mechanisms in different gas compositions
  • Investigate the role of pressure in plasma physics
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Physicists, electrical engineers, and researchers in atmospheric science or plasma physics who are interested in the effects of pressure on ionization and related phenomena.

thebiggerbang
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How does the pressure change the amount by which air ionizes? I know that high pressure suppresses ionization. But why?
Concept please!
 
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You can argue that either; pressure does not change the amount the [a non-radioactive] air ionises, because the ionisation is a result of ionising radiation from an external source, which is independent of the pressure

or; probability of ionisation within a small volume is proportional to the mass in that volume (on account that if there is more mass there, then it is proportionally more likely to respond to incoming radiation).

Once ions or electrons are present, then the application of an electric, or time-varying magnetic, field may cause acceleration of those ions/electrons that then go on to cascade further ion production. You therefore have two mechanisms - an initial ionisation from radiation, then ionisation from accelerated charged particles. The latter is affected by the pressure according to some very complex phenomena which you can research by looking up 'Pachen breakdown', and the long-and-short summary is that it is to do with mean free paths and whether the particles can pick up enough energy to produce more charged particles before they get 'neutralised'.
 

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