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AbstractAbstract
[en] The most salient features found in the fusion of heavy ion systems are the enhanced sub-barrier fusion and the broadening of the compared nucleus spin distribution around the coulomb barrier which seems to be closely related. A brief description of the macroscopic model of nuclear shape evolution is given. This model when applied to sub-barrier fusion results in an energy dependent barrier height. To reproduce the spin distribution, in addition to this energy dependence, the need to have the l-dependent real as well as l-dependent imaginary potential has been discussed. (author). 12 refs., 8 figs
Original Title
barrier penetration model, macroscopic model
Primary Subject
Source
Kailas, S.; Singh, P. (Bhabha Atomic Research Centre, Bombay (India)) (eds.); Department of Atomic Energy, Bombay (India); 217 p; 1992; p. 137-152; Bhabha Atomic Research Centre; Bombay (India); Symposium on nuclear physics; Bombay (India); 26-30 Dec 1991
Record Type
Miscellaneous
Literature Type
Conference
Report Number
Country of publication
ANGULAR MOMENTUM, ARGON 40 REACTIONS, COULOMB FIELD, CROSS SECTIONS, DEGREES OF FREEDOM, ENERGY DEPENDENCE, HEAVY ION FUSION REACTIONS, LEAD 208 TARGET, LECTURES, MEV RANGE 100-1000, MEV RANGE 10-100, NICKEL 58 REACTIONS, NICKEL 64 TARGET, NUCLEAR MODELS, NUCLEAR POTENTIAL, OXYGEN 16 REACTIONS, SHAPE, TIN 122 TARGET
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