Spike rate dependent synaptic characteristics in lamellar, multilayered alpha-MoO <sub>3</sub> based two-terminal devices – efficient way to control the synaptic amplification
Meenu Maria Sunny, R. Thamankar
Abstract
/Pt) exhibit superior memory with the high-resistance state (HRS) and low-resistance state (LRS) differing by a large resistance (∼MΩ). The devices also show excellent synaptic characteristics. Both optical and electrical pulses can be utilised to stimulate the synapse. Consistent learning (potentiation) and forgetting (depression) curves are measured. Transition from long term depression to long term potentiation can be achieved using the spike frequency dependent pulsing scheme. We have found that the amplification of postsynaptic current can be tuned using such frequency dependent spikes. This will help us to design neuromorphic devices with the required synaptic amplification.
Topics & Concepts
Neuromorphic engineeringSynapseTerminal (telecommunication)Long-term potentiationLamellar structureMaterials scienceSpike (software development)Alpha (finance)NeuroscienceBiophysicsChemistryComputer scienceBiologyArtificial neural networkMathematicsReceptorTelecommunicationsComposite materialBiochemistryArtificial intelligenceConstruct validityPsychometricsStatisticsSoftware engineeringAdvanced Memory and Neural ComputingPhotoreceptor and optogenetics researchTransition Metal Oxide Nanomaterials