The Distribution of Intergranular Gaps Along Alpha Tracks Recorded in Ionographic Emulsions

Detailed microscopic analyses performed at high statistics (size: 1100) on 8.776 MeV a tracks materialised in nuclear emulsion demonstrated a distribution of intergranular gaps along the primary ion's path that was not only non-random but also fluctuated significantly with the energy of the projectile. The highest and lowest gap frequencies measured correspond to the energy region of 0.07 - 1.5 MeV and 7 MeV, respectively. The gap length distributions followed an exponential law, a known characteristic of the intergranular gaps distributed along the tracks of high energy charged particles. A tentative interpretation of these observations has been undertaken in terms of spatial distributions of d rays around the incoming ion's path, by applying the Double-Differential Cross-Section Mixed Treatment to the geometrical configuration of the AgBr microcrystals embedded in the gelatin matrix. At this preliminary stage of our modelling, the main experimental data could already be reproduced satisfactorily.