Abstract
Deuteron breakup cross sections on the C and CH2 targets have been measured up to the proton internal momenta of 0.3 GeV/c. The cross-sections 12C(d, p)X and 1H(d, p)X reactions have been obtained with high precision. The obtained data are compared with previous measurements. The behavior features in the vicinity of the cross section maximum were studied in dependence on the transversal momentum in the region of 0.01 < pt < 0.16 GeV/c. The measurements have been performed at the Veksler Baldin Laboratory of High Energy Physics of the Joint Institute for Nuclear Research.
Highlights
Disintegration of the lightest nuclei is one of effective tools in studying the few-body problem
The measurements were repeated with a higher precision on the C and CH2 targets in 1992 [2]
We present the results of the new measurements on the C and CH2 targets, which differ from the previous ones by:
Summary
Disintegration of the lightest nuclei is one of effective tools in studying the few-body problem. The first measurements of the 12C(d, p)X in the full range of the internal proton momenta were fulfilled in 1983 [1]. The measurements were repeated with a higher precision on the C and CH2 targets in 1992 [2]. We present the results of the new measurements on the C and CH2 targets, which differ from the previous ones by:
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