nanolasers

Nanolasers are lasers in which the active region and the optical mode are confined to nanometer scales. This extreme confinement allows light to be generated and manipulated in devices with dimensions well below the diffraction limit, making nanolasers of interest for integrated photonics and nanoscale sensing. Nanolasers are typically categorized into plasmonic nanolasers, or spasers, which use metal-dielectric surface plasmon modes to achieve subwavelength confinement, and all-dielectric nanolasers, which employ high-refractive-index dielectric resonators supporting Mie-type resonances with reduced absorption losses.

Operation relies on a gain medium—such as semiconductor quantum dots, colloidal quantum wells, dyes, or III-V

Performance challenges include material losses in metals, heating, and fabrication difficulties at the nanoscale. Metal-based nanolasers

Applications envisioned for nanolasers include on-chip optical interconnects, miniaturized sensors, quantum light sources, and integrated photonic

The field remains interdisciplinary, spanning nanofabrication, materials science, and quantum optics.