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arxiv: 2011.02370 · v1 · pith:KSXR7G6J · submitted 2020-11-04 · nlin.PS · physics.app-ph

Bursting and excitability in neuromorphic resonant tunneling diodes

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classification nlin.PS physics.app-ph
keywords neuromorphicburstingdiodesexcitableregimeresonantspikestunneling
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We study in this paper the dynamics of quantum nanoelectronic resonant tunneling diodes (RTDs) as excitable neuromorphic spike generators. We disclose the mechanisms by which the RTD creates excitable all-or-nothing spikes and we identify a regime of bursting in which the RTD emits a random number of closely packed spikes. The control of the latter is paramount for applications in event-activated neuromorphic sensing and computing. Finally, we discuss a regime of multi-stability in which the RTD behaves as a memory. Our results can be extended to other devices exhibiting negative differential conductance.

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