Gamma Rays: Electromagnetic Shielding for Long-Term Protection in Space

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Discussion Overview

The discussion centers on the effectiveness of electromagnetic shielding versus solid shielding for protecting humans from gamma radiation in space over long periods. It explores the nature of gamma radiation and the materials that could be used for effective shielding.

Discussion Character

  • Technical explanation
  • Debate/contested

Main Points Raised

  • One participant questions whether electromagnetic shielding can protect humans from gamma radiation in space.
  • Another participant asserts that gamma radiation is neutral and requires solid shielding for protection.
  • A request for more information about solid shielding is made, indicating interest in the materials and methods used.
  • A participant explains that gamma rays interact with matter primarily through the Compton effect and the photoelectric effect, and discusses the conditions under which pair production occurs.
  • The explanation includes that effective shielding should maximize electron density, with lead being a common choice due to its density and cost, while noting that thorium and uranium could also be effective but are radioactive.
  • The discussion mentions a tradeoff between shielding effectiveness and mass, and highlights that high-energy charged particles are a significant concern in space.

Areas of Agreement / Disagreement

Participants express differing views on the effectiveness of electromagnetic shielding versus solid shielding, indicating that there is no consensus on the best approach for gamma radiation protection in space.

Contextual Notes

The discussion does not resolve the complexities of shielding materials or the specific conditions under which different shielding methods may be effective. There are also unresolved considerations regarding the implications of mass in shielding design.

varungreat
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can electromagnetic shielding in space protect humans (for a long period) from gamma radiation??
i:rolleyes:
 
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No, gamma radiation is neutral and no electromagnetism will protect humans from it. Solid shielding is required.
 
Thanx!
But please tel me more about this SOLID SHIELDING required.
 
Gamma rays interact primarily with the electrons in matter, primarily through the Compton effect (http://hyperphysics.phy-astr.gsu.edu/hbase/quantum/comptint.html#c1), but also the photoelectric effect (http://hyperphysics.phy-astr.gsu.edu/hbase/mod1.html#c2).

At gamma energies above 1.022 MeV, pair (e+, e-) prodcution is possible, whereby the gamma photon interacts with the nucleus to form an electron-positron pair. The electron and positron will interact with other electrons to slow down, and ultimately the positron will combine with an electron in mutual annihilation (transformation) into two gamma rays of ~ 0.511 MeV.

Now an effective shield for gamma-radiation should maximize the electron density, and that is why lead is used - it also happens to be relatively inexpensive to other heavy (dense) elements. Thorium and uranium would be good shield materials by this criterion, but they are also radioactive themselves.

The tradeoff for shielding is the mass.

The effect of high energy charged particles is more of a concern in space.
 

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