Litcius/Paper detail

Scalable photonic integrated circuits for high-fidelity light control

Adrian J. Menssen, Artur Hermans, Ian Christen, Thomas Propson, Chao Li, Andrew Leenheer, Matthew Zimmermann, Mark Dong, Hugo Larocque, Hamza Raniwala, Gerald Gilbert, Matt Eichenfield, Dirk Englund

2023Optica23 citationsDOIOpen Access PDF

Abstract

Advances in laser technology have driven discoveries in atomic, molecular, and optical (AMO) physics and emerging applications, from quantum computers with cold atoms or ions, to quantum networks with solid-state color centers. This progress is motivating the development of a new generation of optical control systems that can manipulate the light field with high fidelity at wavelengths relevant for AMO applications. These systems are characterized by criteria: (C1) operation at a design wavelength of choice in the visible (VIS) or near-infrared (IR) spectrum, (C2) a scalable platform that can support large channel counts, (C3) high-intensity modulation extinction and (C4) repeatability compatible with low gate errors, and (C5) fast switching times. Here, we provide a pathway to address these challenges by introducing an atom control architecture based on VIS-IR photonic integrated circuit (PIC) technology. Based on a complementary metal–oxide–semiconductor fabrication process, this atom-control PIC (APIC) technology can meet system requirements (C1)–(C5). As a proof of concept, we demonstrate a 16-channel silicon-nitride-based APIC with (5.8±0.4)ns response times and >30dB extinction ratio at a wavelength of 780 nm.

Topics & Concepts

Extinction ratioOptoelectronicsPhotonicsScalabilityPhotonic integrated circuitMaterials scienceQuantum technologyQuantum computerComputer sciencePhysicsWavelengthQuantumOpen quantum systemDatabaseQuantum mechanicsNeural Networks and Reservoir ComputingPhotonic and Optical DevicesOptical Network Technologies
Scalable photonic integrated circuits for high-fidelity light control | Litcius