Neutral Decay Products of Cosmic Radiation at Great Depth
- 15 November 1948
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review B
- Vol. 74 (10) , 1300-1310
- https://doi.org/10.1103/physrev.74.1300
Abstract
The absorption curve of cosmic radiation was measured during a period of seven years in a coal mine at a depth of about 1000 m w.e. The shape of the curve and the counter-efficiency measurements suggest that the most penetrating component of cosmic radiation consists of non-ionizing or scarcely ionizing rays. It was found that the intensity decreases for inclined directions less than it would correspond to the thickness of the material and its temperature coefficient is positive. All these experimental evidences, together with the known fact that at 400 m w.e. depth the exponent in the intensity versus depth variation changes from 1.8 to 2.8, favor the view that the radiation present at 1000 m w.e. depth is formed at the decay of the mesons in the atmosphere. Neutrini or neutral mesons may account for the findings.Keywords
This publication has 10 references indexed in Scilit:
- Mesons of Different MassesNature, 1948
- Temperature Effect of Cosmic Radiation at 1000-M Water Equivalent DepthPhysical Review B, 1947
- Theory of Cosmic-Ray MesonsPhysical Review B, 1943
- Decrease of the intensity of cosmic rays in the earth down to 1380 m waterequivalentPhysica, 1939
- Cosmic-Ray Particles at Great DepthPhysical Review B, 1939
- On the Instability of the Barytron and the Temperature Effect of Cosmic RaysPhysical Review B, 1938
- Cosmic-Ray Intensities at Great DepthsPhysical Review B, 1938
- Messung der Ultrastrahlung im Bergwerk mit KoinzidenzmethodeThe European Physical Journal A, 1937
- Die Absorptionskurve der harten Komponente der kosmischen UltrastrahlungThe European Physical Journal A, 1937
- Koinzidenzregistriermethode mit 10−5 sec AuflösungsvermögenThe Science of Nature, 1933