Abstract
This present work investigated the effects of proton-beam irradiation on SnO-based p-type oxide thin-film transistors (TFTs) for the first time. The experiments were performed using a 5-MeV proton beam with doses ranging from $10^{12}$ to $10^{14}\,\,\textsf {p}\cdot \textsf {cm}^{-2}$ . The experimental results showed that the transfer curves of the p-type SnO TFT rarely changed following the proton irradiation at every irradiation condition, indicating that the p-type SnO TFT could be potentially useful in implementing complementary-logic-based oxide TFT circuits operating in harsh environments. The insensitivity of current conduction paths to SnO lattice disorder was considered as a possible mechanism for the observed radiation tolerance of the p-type SnO TFTs.
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