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The time evolution of particle number fluctuations in nuclear collisions at intermediate energies (E₋₀₁=1. 23--10A0. 16em{0ex}GeV) is studied by means of the UrQMD-3. 5 transport model. The transport description incorporates baryonic interactions through a density-dependent potential. This allows for an implementation of a first-order phase transition including a mechanically unstable region at large baryon density. The scaled variance of the baryon and proton number distributions is calculated in the central cubic spatial volume of the collisions at different times. A significant enhancement of fluctuations associated with the unstable region is observed. This enhancement persists to late times, reflecting a memory effect for the fluctuations. The presence of the phase transition has a much smaller influence on the observable event-by-event fluctuations of protons in momentum space.
Savchuk et al. (Thu,) studied this question.