DISSIPATIVE NUCLEAR REACTION IN LOW ENERGY LIGHT HEAVY ION COLLISION: Dissipative Nuclear reaction,Used

DISSIPATIVE NUCLEAR REACTION IN LOW ENERGY LIGHT HEAVY ION COLLISION: Dissipative Nuclear reaction,Used

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SKU: DADAX3838386213
Brand: LAP Lambert Academic Publishing
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The dissipative nuclear reaction mechanism in low energy light heavyion collisions have been studied. Inclusive energy distributions for various fragments and light charged particles have been measured in a wide angular range in several reactions. In the 20Ne+12C reaction, the fragment yield was mostly from the equilibrium decay of composite system, although the crosssections for B, C, N fragments were higher than the statistical model predictions. This enhancement in crosssection indicated the survival of orbitinglike phenomenon at the energy > 7 MeV/nucleon. The composite system is also deformed. In 20Ne+27Al reaction, both deepinelastic and fusionfission processes were found to contribute significantly to the fragment yield. The time scale for the deepinelastic process was 1022 seconds. It has been found that the extracted values of angular momentum dissipation were more than the corresponding phenomenological (sticking) limit predictions for light fragments. In addition, in plane coincidence data gives information about the decay of the hot composite formed 20Ne+12C reaction at 158 MeV.

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