Article ID Journal Published Year Pages File Type
1680640 Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 2012 5 Pages PDF
Abstract

Radiation induced conductivity (RIC) is an important property of dielectric materials to evaluate the charge/discharge effect in orbit-service spacecraft. RIC of space-applied polyimide film was in situ measured and studied under continuous and cyclic electron irradiation in this paper. The results indicate that, for cyclic electron irradiation, there is a similar increasing-mode of RIC to those for continuous irradiation with the electron irradiation time. However, under the cyclic electron irradiation, the RIC of polyimide shows an obvious irradiation-history characteristic, namely preliminary irradiation dose effect (PIDE). In this case, the steady RIC value presents an “overshoot” behavior in the first few irradiation cycles and then decrease to a stable one as that under continuous irradiation. Prolonging the initial irradiation duration may avoid occurrence of overshoot phenomenon. The behaviors of irradiation-induced free radicals in polyimide could be applied to explain the RIC evolution processes.

► We investigated RIC evolution of polyimide under cyclic and a long-time continuous electron irradiation. ► The evolution RIC of the polyimide under cyclic irradiation presents an “overshoot” characteristic. ► It is found that the “overshoot” can be avoided by prolonging the single cyclic duration. ► Free radicals formed through ionization and trap filled by carriers contribute to the preliminary irradiation dose effects.

Related Topics
Physical Sciences and Engineering Materials Science Surfaces, Coatings and Films
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