Emitter size as a function of mass and transverse mass

Bose-Einstein and Fermi-Dirac correlations show that the emitter dimension r decreases as the hadron mass increases. Same behaviour is seen for the longitudinal dimension r_z dependence on the transverse mass m_T. In both cases the Heisenberg uncertainty relations yield the same expression for r(m) and r_z(m_T). This r behaviour also describes the interatomic separation of Bose condensates. If r represents the emitter radius then its energy density reaches for baryon masses the high value of ~100GeV/fm^3.