Radiation damage processes in materials : [proceedings of the NATO Advanced Study Institute on Radiation Damage Processes in Materials, held on Corsica, France, August 27-September 9, 1973]

Thirty years ago, the sharp development of the nuclear phy-­ SlCS has given scope to some connected areas such as radiochemis­ try, radiobiology, radioprotection, radiation damages. In this last subject - damages induced by radiations in mate­ rials, the earlier studies are essentially connected to the me­ chanism of defect creation. Several workers, for instance, SEITZ (1949), DIENES and VINEYARD (1957), BILLINGTON and CRAWFORD (1961) have developed the first approach in the damage processes theories. In the 65th years a "saturation effect" occurs in the studies of the mechanisms and correlatively a strong development appears in the physics of the defect itself. If it is possible in many cases to study defects without a good ~nowledge of their origin many researchs, in particular in the field of defects induced by energetic heavy ions, needs a better understanding of the damage processes. The track phenomena for instance is of special interest in heavy ions problems, cosmic ray tracks in lunar and meteorite crystals or glasses are a good indicator of the solar activity. On the other hand, color centers, induced by energetic heavy ions in alkali-halides crystals, shown a quite different behaviour than those created by light particles, it is necessary to assume that the ionic bombardement creates centers in a well located re­ gion : a core around the path of the incident particle.

1. General Principles.- Energy loss of charged particules in solids.- On the states of ions penetrating solids.- 2. Radiation Damage Processes.- Ionization damage processes in inorganic materials.- Color centers in oxide glasses.- Radiation effects in organic materials.- Radiation damage in metals and semiconductors.- Collision damage processes in transparent materials.- Combined ionisation and collision damage processes in ionic solids.- Ionization effects on damage production in semiconductors.- Track processes.- Formation of amorphous material.- The photographic process.- Chemical aspects of radiation damage processes: Radiolysis.- 3. Applications.- Ion implantation.- Damage to nuclear materials.- Application of radiation damage effects in dosimetry.- Application of radiation damage in information storage.