Mathematics – Probability
Scientific paper
Aug 1985
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1985icrc....5..494c&link_type=abstract
In NASA. Goddard Space Flight Center 19th Intern. Cosmic Ray Conf., Vol. 5 p 494-497 (SEE N85-34991 23-93)
Mathematics
Probability
Charged Particles, Galactic Cosmic Rays, Muons, Particle Collisions, Particle Interactions, Scintillation Counters, Sea Level, Aluminum, Ambient Temperature, Iron, Photomultiplier Tubes, Pulse Amplitude
Scientific paper
Cosmic ray particles at sea level penetrate a thick layer of dense medium without appreciable interaction. These penetrating particles are identified with muons. The only appreciable interaction of muons are by knock on processes. A muon may have single, double or any number of knock on with atoms of the material so that one, two, three or more particles will come out from the medium in which the knock on processes occur. The probability of multiparticle production is expected to decrease with the increase of multiplicity. Measurements of the single, double, and triple particles generated in a dense medium (Fe and Al) by sea level cosmic rays at 22.42 N. Lat. and 114.20 E. Long. (Hong Kong) are presented using a detector composed of two plastic scintillators connected in coincidence.
Chan Kai Wing
Chuang L. S.
Wada Makoto
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