Abstract
The multiple emission of intermediate-mass fragments (IMF) is studied for collisions of p, He-4, and C-12 on Au with the 4 pi FASA setup. The mean multiplicities of IMF saturate at a value of around 2 for incident energies above 6 GeV. An attempt at describing the observed IMF multiplicities in the two-stage scenario, a fast cascade followed by a statistical multifragmentation, fails. Agreement with the measured IMF multiplicities is obtained by introducing an intermediate expansion phase and modifying empirically the excitation energies and masses of remnants. The angular distributions and energy spectra from p-induced collisions are in agreement with the scenario of "thermal" multifragmentation of a hot and expanded target spectator. In the case of C-12 + Au (22.4 GeV) and He-4 (14.6 GeV) + Au collisions, deviations from a pure thermal breakup are seen in the fragment energy spectra, which are harder than those both from model calculations and from the measured ones for p-induced collisions. This difference is attributed to a collective flow with the expansion velocity at the surface of about 0.1c (for C-12 + Au collisions). (C) 2001 MAIK 'Nauka/Interperiodica".