Litcius/Paper detail

Amplified emission and lasing in photonic time crystals

Mark Lyubarov, Yaakov Lumer, Alex Dikopoltsev, Eran Lustig, Yonatan Sharabi, Mordechai Segev

2022Science229 citationsDOI

Abstract

Photonic time crystals (PTCs), materials with a dielectric permittivity that is modulated periodically in time, offer new concepts in light manipulation. We study theoretically the emission of light from a radiation source placed inside a PTC and find that radiation corresponding to the momentum bandgap is exponentially amplified, whether initiated by a macroscopic source, an atom, or vacuum fluctuations, drawing the amplification energy from the modulation. The radiation linewidth becomes narrower with time, eventually becoming monochromatic in the middle of the bandgap, which enables us to propose the concept of nonresonant tunable PTC laser. Finally, we find that the spontaneous decay rate of an atom embedded in a PTC vanishes at the band edge because of the low density of photonic states.

Topics & Concepts

Photonic crystalLasing thresholdSpontaneous emissionMonochromatic colorLaser linewidthPhotonicsOptoelectronicsPhysicsLaserBand gapDielectricRadiationOpticsAmplified spontaneous emissionAtom (system on chip)Materials sciencePhotonic bandgapComputer scienceEmbedded systemPhotonic Crystals and ApplicationsRandom lasers and scattering mediaTerahertz technology and applications