Interplay Of Mean Field And Individual Nucleon Collisions Effects At Intermediate Energy Heavy Ion Reactions

In our study of the reaction 20Ne+27Al at energy of 84 A MeV, the track detectors were used to select the target like fragments arising from processes in which the interacting system becomes disintegrated into a large number of constituent nucleons and one massive fragment. Heavy ion reaction studie...

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Bibliographic Details
Main Authors: Subotic, K, Jordanov, D, Durasevic, M, Dragosavac, D, Grabez, B
Format: Conference Proceeding
Language:English
Subjects:
ALUMINIUM 27 TARGET
CROSS SECTIONS
MEAN-FIELD THEORY
MEV RANGE
NEON 20 REACTIONS
NUCLEAR FRAGMENTATION
NUCLEAR FRAGMENTS
NUCLEAR PHYSICS AND RADIATION PHYSICS
NUCLEAR REACTION KINETICS
NUCLEON-NUCLEON INTERACTIONS
NUCLEONS
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Summary:In our study of the reaction 20Ne+27Al at energy of 84 A MeV, the track detectors were used to select the target like fragments arising from processes in which the interacting system becomes disintegrated into a large number of constituent nucleons and one massive fragment. Heavy ion reaction studies at bombarding energies of several tens of MeV/nucleon have provided the evidence that most of reaction cross section, in this energy range, is associated with the production of primary projectile like and target like fragment in the first step of the nuclear reaction. The subsequent evolution of the studied reaction systems, has been usually described either using low energy models based on mean field effects (MFE), or high energy models where reaction proceeds by independent collisions (INC) of individual nucleons in the overlap region between target and projectile. The analysis of our results in terms of different MFE and INC models, prescribing consistent timings, has shown that the reaction mechanism may be defined of interplay of the mean field and individual nucleon collisions effects.
ISSN:0094-243X
1551-7616
DOI:10.1063/1.2733282