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Target and projectile fragmentations in {sup 208}Pb-emulsion collisions at 160{ital A} GeV

Journal Article · · Physical Review, C
;  [1]
  1. High Energy Experimental Laboratory, Department of Physics, State University of New York at Buffalo, Buffalo, New York 14260 (United States)
+ Show Author Affiliations
We present the results of a study performed on the {sup 208}Pb-emulsion interactions at 160{ital A} GeV. In a minimum-bias sample of 1034 nuclear collisions, charges are assigned to all of the emitted 3431 helium and 1820 heavier projectile fragments during the breakup of the {sup 208}Pb beam in emulsion. Multiplicity distributions of the target-associated slow-moving particles and of the fast-moving projectile fragments are investigated. The polar angles of a subsample of 337 interactions having at least four projectile fragments of charge {ital Z}{ge}2 are accurately measured and their pseudorapidity distributions are obtained. Multiplicity distributions, two- and three-body asymmetries, and conditional moments of the fast-moving projectile particles are investigated in terms of the total charge remaining in bound in the multiply charged projectile fragments. The results are compared with our existing 10.6{ital A} GeV {sup 197}Au-emulsion data obtained in experiment No. 875 conducted at the Brookhaven National Laboratory. Multiplicity distributions of slow particles emitted from the {sup 208}Pb- and {sup 197}Au-induced emulsion reactions are found to be independent of the beam masses and their energies. An insignificant number of fission events is observed in this work. Some differences in the average yields of helium nuclei and heavier fragments are observed, which may be attributed to an energy effect or to the limited statistics. However, two- and three-body asymmetries and conditional moments indicate that the breakup mechanism of the projectiles over a wide span of energies seems to be energy independent. {copyright} {ital 1996 The American Physical Society.}
OSTI ID:
397713
Journal Information:
Physical Review, C, Journal Name: Physical Review, C Journal Issue: 6 Vol. 54; ISSN PRVCAN; ISSN 0556-2813
Country of Publication:
United States
Language:
English

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Related Subjects

66 PHYSICS
BREAKUP REACTIONS
DISTRIBUTION
EMULSIONS
ENERGY DENSITY
EQUATIONS OF STATE
FRAGMENTATION
LEAD 208 BEAMS
LEAD 208 REACTIONS
MULTIPLICITY
NUCLEAR FRAGMENTS
NUCLEAR MATTER
TEV RANGE 10-100