Litcius/Paper detail

Recent Progress in Nanolaser Technology

Kwang‐Yong Jeong, Min‐Soo Hwang, Jungkil Kim, Jin‐Sung Park, Jung Min Lee, Hong‐Gyu Park

2020Advanced Materials72 citationsDOI

Abstract

Nanolasers are key elements in the implementation of optical integrated circuits owing to their low lasing thresholds, high energy efficiencies, and high modulation speeds. With the development of semiconductor wafer growth and nanofabrication techniques, various types of wavelength-scale and subwavelength-scale nanolasers have been proposed. For example, photonic crystal lasers and plasmonic lasers based on the feedback mechanisms of the photonic bandgap and surface plasmon polaritons, respectively, have been successfully demonstrated. More recently, nanolasers employing new mechanisms of light confinement, including parity-time symmetry lasers, photonic topological insulator lasers, and bound states in the continuum lasers, have been developed. Here, the operational mechanisms, optical characterizations, and practical applications of these nanolasers based on recent research results are outlined. Their scientific and engineering challenges are also discussed.

Topics & Concepts

NanolaserLasing thresholdMaterials scienceOptoelectronicsLaserPhotonic integrated circuitPhotonicsSemiconductor laser theoryPlasmonPhotonic crystalNanophotonicsSemiconductorOpticsWavelengthPhysicsPhotonic Crystals and ApplicationsPhotonic and Optical DevicesPlasmonic and Surface Plasmon Research