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Photonic crystal integrated logic gates and circuits

Luis Pedraza Caballero, Michelle L. Povinelli, Jhonattan C. Ramirez, Paulo S. S. Guimarães, Omar P. Vilela Neto

2022Optics Express50 citationsDOIOpen Access PDF

Abstract

This paper presents and demonstrates the three logic processing levels based on complementary photonic crystal logic devices through photonic integrated circuit modeling. We accomplished a set of logic circuits including AND, OR, NAND, NOR, XOR, FAN-OUT, HALF ADDER, and FULL ADDER based on photonic crystal slab platforms. Furthermore, we achieved efficient all-optical logic circuits with contrast ratios as high as 5.5 dB, demonstrated in our simulation results, guaranteeing well-defined output power values for logic representations; a clock-rate up to 2 GHz; and an operating wavelength at λ ≈ 1550 nm. Thus, we can now switch up for high computing abstraction levels to build photonic integrated circuits rather than isolated gates or devices.

Topics & Concepts

Photonic integrated circuitLogic gateAdderPhotonic crystalElectronic circuitComputer scienceLogic familyNOR logicElectronic engineeringPass transistor logicNMOS logicAND gateIntegrated circuitOptical computingOptoelectronicsLogic synthesisAbstractionDigital electronicsLogic levelPhotonicsOpticsDiode–transistor logicSequential logicPhysicsPower (physics)Resistor–transistor logicLogic optimizationPhotonic Crystals and ApplicationsNeural Networks and Reservoir ComputingPhotonic and Optical Devices
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