Litcius/Paper detail

Holographic Plasma Lenses

Matthew R. Edwards, Vadim R. Munirov, A. Singh, N. M. Fasano, Eugene Kur, N. Lemos, J. M. Mikhailova, J. S. Wurtele, P. Michel

2022Physical Review Letters39 citationsDOIOpen Access PDF

Abstract

A hologram fully encodes a three-dimensional light field by imprinting the interference between the field and a reference beam in a recording medium. Here we show that two collinear pump lasers with different foci overlapped in a gas jet produce a holographic plasma lens capable of focusing or collimating a probe laser at intensities several orders-of-magnitude higher than the limits of a nonionized optic. We outline the theory of these diffractive plasma lenses and present simulations for two plasma mechanisms that allow their construction: spatially varying ionization and ponderomotively driven ion-density fluctuations. Damage-resistant plasma optics are necessary for manipulating high-intensity light, and divergence control of high-intensity pulses-provided by holographic plasma lenses-will be a critical component of high-power plasma-based lasers.

Topics & Concepts

HolographyPlasmaOpticsCollimated lightLaserLens (geology)PhysicsIonizationMaterials scienceIonQuantum mechanicsLaser-Matter Interactions and ApplicationsLaser-Plasma Interactions and DiagnosticsLaser-induced spectroscopy and plasma