Nonlinear Metasurfaces: A Paradigm Shift in Nonlinear Optics
Alexander Krasnok, Mykhailo Tymchenko, and Andrea Alu

TL;DR
This paper reviews recent advances in nonlinear metasurfaces, highlighting their ability to enhance harmonic generation and control nonlinear wavefronts at small scales without phase matching.
Contribution
It provides a comprehensive overview of the state-of-the-art in nonlinear metasurfaces, emphasizing design strategies and recent technological developments.
Findings
High-harmonic generation from ultrathin metasurfaces achieved.
Control of phase front profiles of nonlinear waves demonstrated.
Comparison of methods to enhance nonlinearities without phase matching.
Abstract
Frequency conversion processes, such as second- and third-harmonic generation, are one of the most common effects in nonlinear optics which offer many opportunities for photonics, chemistry, material science, characterization, and biosensing. Given the inherently weak nonlinear response of natural materials, one typically relies on optically large samples and complex phase-matching techniques to achieve nonlinear effects. A direct translation of these approaches to small dimensions, however, is extremely challenging, because nonlinear effects locally comparable to the linear response cannot be induced without reaching extremely high light intensities leading to the material breakdown. For this reason, the quest to synthesize novel materials with enhanced optical nonlinearities at moderate input intensities is very active nowadays. In the last decade, several approaches to engineering…
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Taxonomy
TopicsMetamaterials and Metasurfaces Applications · Plasmonic and Surface Plasmon Research · Photonic and Optical Devices
