Abstract
Abstract In neutron irradiation the primary knock-out atom, when producing secondary defects and slowing down, releases its energy in the cascade zone which, being heated up to a temperature higher than the ambient, provides the migration of the Frenkel pairs and their annihilation (radiation annealing). The system of equations which is presented describes the diffusion and annihilation of the defects and the cooling of the cascade zone resulting from the lattice and electron heat transfer. The solution of the system, using simplifying assumptions, brings one to the conclusion that the effectiveness of the Frenkel pair production, by the primary knocked-out atoms with an energy lower than a certain boundary energy, decreases because the atom dissipates its energy in a region of smaller dimensions, which is heated to higher temperature and, thus, the more incisive radiation annealing of the Frenkel pairs is provided. In accordance with this the number of secondary knocked-out atoms at energies lower than t...
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