Abstract
A statistical approach has been exploratively applied to extract an influential factor of anomalous decreases in drain current observed in metal–oxide–semiconductor field-effect transistors with large channel widths. Since negative slopes were detected in drain current vs drain voltage (Id–Vds) curves even with negligible heat quantity or density, the self-heating effect was excluded as the primary factor. In contrast, the aspect ratio of the device areas showed a significant influence. These results support the validity of a hypothesis, namely, that acoustic standing waves are excited and thereby the probabilities of impact ionizations are synchronously magnified in the devices.
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