Abstract
The maximum breakup of 16O + 107Ag and 84Kr + 107Ag collisions at energies from 5A to 2100A MeV has been investigated. Comparisons between data and calculations within a fusion + evaporation model at low energies and fusion + hadrochemical fireball decay model at higher energies show that phenomena like pre-equilibrium emission, compression and collective flow must be considered. At (34 ± 2)A MeV we observe the cease of the compound evaporation process and the onset of multifragmentation for the highest multiplicity 16O + 107Ag collisions.
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