The Ionization Loss of Energy in Gases and in Condensed Materials

Abstract

It is shown that the loss of energy of a fast charged particle due to the ionization of the material through which it is passing is considerably affected by the density of the material. The effect is due to the alteration of the electric field of the passing particle by the electric polarization of the medium. A theory based on classical electrodynamics shows that by equal mass of material traversed, the loss is larger in a rarefied substance than in a condensed one. The application of these results to cosmic radiation problems is discussed especially in view of the possible explanation on this basis of part of the difference in the absorption of mesotrons in air and in condensed materials that is usually interpreted as evidence for a spontaneous decay of the mesotron.

Keywords

IonizationElectric fieldCosmic rayPhysicsAtomic physicsParticle (ecology)Charged particleAbsorption (acoustics)RadiationPolarization (electrochemistry)Nuclear physicsIonChemistryOpticsQuantum mechanics

Affiliated Institutions

Columbia University US

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Publication Info

Year: 1940
Type: article
Volume: 57
Issue: 6
Pages: 485-493
Citations: 612
Access: Closed

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APA Style

                            
                                    Enrico Fermi
                                
                            (1940). 
                            The Ionization Loss of Energy in Gases and in Condensed Materials. 
                            Physical Review
                            , 57
                            (6)
                            , 485-493.
                            https://doi.org/10.1103/physrev.57.485

Identifiers

DOI: 10.1103/physrev.57.485