Assuming that the produced particles decay isotropically in the center of mass system,the transverse energy rapidity distribution in hadron-nucleus interactions is derived.

The rapidity distribution of protons produced in nucleus-nucleus collisions at the Alternating Gradient Synchrotron (AGS) and the Super Proton Synchrotron(SPS) energies are analyzed by the three-fireball model.

It is shown that the rapidity distribution at RHIC-LHC energy region for the cases with and without phase transition will be much different in shapes This result suggests that the shape of rapidity distribution may be used as a possible signal for quark matter formation.

The △ resonance effects on the rapidity distributions of proton and pion and on the transverse mass distribution of proton are investigared.

A simple analytical formula for transverse energy distributions is derived which is then compared with the experimental data obtained by NA35 Collaboration at CERN.

We adopt Woods-Saxon profile as the nucleon number density; derive out the equation of transverse energy distribution in high-energy AA collisions; analyze the data of the NA35 collaboration; and discuss the effects of nucleon distribution on transverse energy distribution.

Effect of the Leading Particles on the Charged-particle Pseudorapidity Distribution;

Particle pseudorapidity distribution in nucleus-nucleus collisions at high energy;

Charged-particle pseudorapidity distributions in Au+Au collisions at high energy