Direct Comparison of the Penetration of Solids and Liquids by Positrons and Electrons
- 10 May 1967
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review B
- Vol. 157 (2) , 257-261
- https://doi.org/10.1103/physrev.157.257
Abstract
A new experimental technique has been used to investigate the penetration of 1.88-MeV positrons and 1.77-MeV electrons in carbon, aluminum, copper, tin, lead, brass, Teflon, Plaskon, Lumarth, water, benzene, and toluene. These are the first such measurements for liquids. The results, which measure transmissions down to 2%, indicate greater transmission of positrons than electrons in solids and liquids, except in brass and Plaskon. The difference in transmission is 12% for Al, 35% for Pb, and 88% for toluene. The greater transmissions in aluminum and lead are in qualitative agreement with the scattering theory; however, there is at present no theoretical explanation for the measured differences in the rest of the solids and the liquids.Keywords
This publication has 14 references indexed in Scilit:
- A Monte Carlo Calculation of the Spatial Distribution of Characteristic X-ray Production in a Solid TargetProceedings of the Physical Society, 1963
- Die Reichweite von Elektronen und Positronen kleiner Energie in AluminiumThe European Physical Journal A, 1958
- Transmission of Positrons and ElectronsPhysical Review B, 1955
- Positron-Electron Differences in Energy Loss and Multiple ScatteringPhysical Review B, 1954
- The Transmission of Electrons through Thin Metallic FoilsPhysical Review B, 1953
- The Backscattering of Positrons and ElectronsPhysical Review B, 1952
- The 6BN6 Gated-Beam Tube as a Fast Coincidence CircuitReview of Scientific Instruments, 1952
- Scattering of Positrons and Electrons by NucleiPhysical Review B, 1950
- Scattering and Loss of Energy of Fast Electrons and Positrons in LeadPhysical Review B, 1938
- The scattering of fast electrons by atomic nucleiProceedings of the Royal Society of London. Series A, Containing Papers of a Mathematical and Physical Character, 1929