Experimental intermediate-mass-fragment multiplicity distributions for the EA=80 and 110 MeV Ar36 + Au197reactions are shown to be binomial at all excitation energies. From these distributions, a single binary event probability p can be extracted that has a thermal dependence. Thus, it is inferred that multifragmentation is reducible to a combination of nearly independent emission processes. If sequential decay is assumed, the increase of p with excitation energy implies a contraction of the time scale that is qualitatively consistent with recent fragment-fragment correlation data
In this report the authors consider two contradictory claims that have been advanced recently: (1) t...
Multifragment emission is studied in 129Xe+natCu reactions. The emission process for central collis...
Intermediate mass fragment (IMF: 3≤Z≤20) emission for the 36Ar+197 Au reaction at E/A=35, 50, 80, 11...
Multifragmentation for 129Xe-induced reactions on several targets (natCu, 89Y, 165Ho, 197Au) has bee...
Multifragment emission is studied in reactions. The emission process for central collisions occurs ...
One of the principal characteristics of nuclear multifragmentation is the emission of complex fragme...
The experimental emission probabilities of complex fragments by low energy compound nuclei and their...
Multifragment emission in the reaction at has been measured with a low-threshold 4π detector array...
Complex fragments at low and intermediate energies originate mostly from the binary decay of a compo...
Multifragment emission processes from highly excited nuclei produced in Ar-40+Au-197 reactions at in...
Multiple emission of intermediate-mass fragments has been studied for the collisions p + Au at 2.16,...
Intermediate-mass-fragment (IMF, 3 {le} Z {le} 20) emission probabilities and IMF charge distributio...
Studies of intermediate energy heavy ion reactions have revealed the existence of a number of reduci...
Fragment-fragment correlations are used to probe the spatial-temporal extent of the emitting source ...
One of the principal characteristics of nuclear multifragmentation is the emission of complex fragme...
In this report the authors consider two contradictory claims that have been advanced recently: (1) t...
Multifragment emission is studied in 129Xe+natCu reactions. The emission process for central collis...
Intermediate mass fragment (IMF: 3≤Z≤20) emission for the 36Ar+197 Au reaction at E/A=35, 50, 80, 11...
Multifragmentation for 129Xe-induced reactions on several targets (natCu, 89Y, 165Ho, 197Au) has bee...
Multifragment emission is studied in reactions. The emission process for central collisions occurs ...
One of the principal characteristics of nuclear multifragmentation is the emission of complex fragme...
The experimental emission probabilities of complex fragments by low energy compound nuclei and their...
Multifragment emission in the reaction at has been measured with a low-threshold 4π detector array...
Complex fragments at low and intermediate energies originate mostly from the binary decay of a compo...
Multifragment emission processes from highly excited nuclei produced in Ar-40+Au-197 reactions at in...
Multiple emission of intermediate-mass fragments has been studied for the collisions p + Au at 2.16,...
Intermediate-mass-fragment (IMF, 3 {le} Z {le} 20) emission probabilities and IMF charge distributio...
Studies of intermediate energy heavy ion reactions have revealed the existence of a number of reduci...
Fragment-fragment correlations are used to probe the spatial-temporal extent of the emitting source ...
One of the principal characteristics of nuclear multifragmentation is the emission of complex fragme...
In this report the authors consider two contradictory claims that have been advanced recently: (1) t...
Multifragment emission is studied in 129Xe+natCu reactions. The emission process for central collis...
Intermediate mass fragment (IMF: 3≤Z≤20) emission for the 36Ar+197 Au reaction at E/A=35, 50, 80, 11...