A solitary multi-junction VCSEL termed NeuronSEL exhibits NDR and neuronal spiking features including refractoriness and integrate-and-fire dynamics, enabling optical coincidence detection and XOR operations.
URL https: //advanced.onlinelibrary.wiley.com/doi/10.1002/aisy.202000085
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Self-organising memristive networks exhibit collective nonlinear dynamics that can support physical learning with parallels to biological plasticity and potential for energy-efficient edge intelligence.
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Neuron Surface Emitting Laser (NeuronSEL): Spiking Regimes and Negative Differential Resistance in Solitary Multi-junction VCSELs
A solitary multi-junction VCSEL termed NeuronSEL exhibits NDR and neuronal spiking features including refractoriness and integrate-and-fire dynamics, enabling optical coincidence detection and XOR operations.
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Self-Organising Memristive Networks as Physical Learning Systems
Self-organising memristive networks exhibit collective nonlinear dynamics that can support physical learning with parallels to biological plasticity and potential for energy-efficient edge intelligence.