Constraints on the time scale of nuclear breakup from thermal hard-photon emission
/ Authors
R. Ortega, R. Ortega, D. d’Enterria, D. d’Enterria, D. d’Enterria, G. Mart́ınez, G. Mart́ınez, D. Baiborodin, H. Delagrange, H. Delagrange
and 13 more authors
J. Díaz, F. Fernández, H. Löhner, T. Matulewicz, R. Ostendorf, S. Schadmand, Y. Schutz, Y. Schutz, P. Tlustý, R. Turrisi, V. Wagner, H. Wilschut, N. Yahlali
/ Abstract
Abstract.Measured hard-photon multiplicities from second-chance nucleon-nucleon collisions are used in combination with a kinetic thermal model to estimate the breakup times of excited nuclear systems produced in nucleus-nucleus reactions at intermediate energies. The obtained nuclear breakup time for the 129Xe + natSn reaction at 50 A MeV is Δτ ≈ 100-300 fm/c for all reaction centralities. The lifetime of the radiating sources produced in seven other different heavy-ion reactions studied by the TAPS experiment is consistent with Δτ ≈ 100 fm/c, such relatively long thermal photon emission times do not seemingly support the interpretation of nuclear breakup as due to a fast spinodal process for the heavy nuclear systems studied.
Journal: The European Physical Journal A - Hadrons and Nuclei