Litcius/Paper detail

Leaky Integrate‐and‐Fire Mechanism in Exciton–Polariton Condensates for Photonic Spiking Neurons

Krzysztof Tyszka, Magdalena Furman, Rafał Mirek, Mateusz Król, Andrzej Opala, Bartłomiej Seredyński, J. Suffczyński, W. Pacuski, Michał Matuszewski, Jacek Szczytko, Barbara Piętka

2022Laser & Photonics Review15 citationsDOIOpen Access PDF

Abstract

Abstract This paper introduces a new approach to neuromorphic photonics in which microcavities exhibiting strong exciton–photon interaction may serve as building blocks of optical spiking neurons. The experimental results demonstrate the intrinsic property of exciton–polaritons to resemble the Leaky Integrate‐and‐Fire (LIF) spiking mechanism. It is shown that exciton–polariton microcavities when non‐resonantly pumped with a pulsed laser exhibit leaky integration due to relaxation of the excitonic reservoir, threshold‐and‐fire mechanism due to transition to Bose–Einstein Condensate (BEC), and resetting due to stimulated emission of photons. These effects, evidenced in photoluminescence characteristics, arise within sub‐ns timescales. The presented approach provides means for ultrafast processing of spike‐like laser pulses with energy efficiency at the level below 1 pJ per spike.

Topics & Concepts

ExcitonPhotonicsPolaritonNeuromorphic engineeringPhotonMechanism (biology)OptoelectronicsUltrashort pulseLaserPhysicsPhotoluminescenceMaterials scienceCondensed matter physicsOpticsQuantum mechanicsComputer scienceArtificial neural networkMachine learningStrong Light-Matter InteractionsNeural Networks and Reservoir ComputingPhotonic and Optical Devices