Coulomb-Blockade Charge-Transport Mechanism in Band-to-Band Tunneling in Heavily-Doped Low-Dimensional Silicon Esaki Diodes
2020 IEEE Silicon Nanoelectronics Workshop (SNW)(2020)
Abstract
Band-to-band tunneling (BTBT), with its key role as a transport mechanism in Esaki (tunnel) diodes, has been studied extensively for about 60 years. In such devices, it is expected that energy states of ionized dopants in the depletion-layer can affect the BTBT mechanism. In this paper, we introduce the observation and analysis of a novel transport mechanism in Si Esaki diodes: single-charge BTBT transport mediated by donor-cluster quantum-dots, statistically expected in the depletion-layer of nanoscale Esaki diodes. This demonstration can open new pathways for band-to-band tunneling devices.
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Key words
tunneling,silicon,coulomb-blockade,charge-transport,band-to-band,heavily-doped,low-dimensional
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