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Trends in relativistic laser–matter interaction: the promises of structured light

Marco Piccardo, Mihail Cernaianu, J. P. Palastro, Alexey Arefiev, C. Thaury, J. Vieira, D. H. Froula, V. Malka

2025Optica17 citationsDOIOpen Access PDF

Abstract

Time and space envelope, frequency and wavelength distributions, polarization, and phase are quantities that define the properties of laser light. Controlling them opens up strategies for manipulating the properties of atoms in various media. At relativistic intensity, matter is rapidly transformed into a plasma state, which is modifying the laser’s propagation, its absorption enabling the generation of intense magnetic and electric fields. In this context, structured light presents exciting, promising, and challenging opportunities for research. This review article aims to explain the concepts of structured light, their applications to real experiments at relativistic intensities, practical considerations, and some scientific perspectives.

Topics & Concepts

PhysicsLaserTheoretical physicsOpticsLaser Design and ApplicationsSolid State Laser TechnologiesGeophysics and Sensor Technology
Trends in relativistic laser–matter interaction: the promises of structured light | Litcius