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Impact of Hybrid Electromagnetic Surface Modes on the Formation of Low Spatial Frequency LIPSS: A Universal Approach

George Perrakis, Odysseas Tsilipakos, George D. Tsibidis, Emmanuel Stratakis

2024Laser & Photonics Review19 citationsDOIOpen Access PDF

Abstract

Abstract In this article, the impact of the excited electromagnetic surface modes in a comprehensive investigation of the formation of laser‐induced periodic surface structures (LIPSS) is analyzed. It is demonstrated that the electromagnetic origin of low spatial‐frequency LIPSS (LSFL) is the frequency detuning between propagating and localized modes due to their coupling/hybridization. The influence of the pattern profile, inhomogeneity, and material type on the coupling strength, electric‐field spatial distribution, and associated near‐field scattering are highlighted. Exploiting the potential of the approach, evidence of a universal manifestation of LSFLs is provided irrespective of the material and the authors are able to predict and validate the experimentally‐proven lower limit of LSFL periodicity (i.e., λ L /2, where λ L stands for the laser wavelength). Furthermore, the analysis of the electromagnetic modes predicts that the periodicity of LSFL is practically unaffected by the laser fluence, while a suppression of LSFL at high excitation levels or large number of pulses is also predicted. It is also shown that plasmonic‐active materials are not necessary for LSFL formation perpendicular to polarization. Toward these directions, an important generic metric, namely the resonance quality factor, is additionally inserted. The approach can, thus, serve as a guide for controlling laser‐induced surface topography.

Topics & Concepts

LaserExcitationElectromagnetic fieldPhysicsPolarization (electrochemistry)Coupling (piping)ScatteringOpticsElectric fieldWavelengthElectromagnetic radiationPerpendicularMaterials scienceGeometryQuantum mechanicsPhysical chemistryMathematicsChemistryMetallurgyLaser Material Processing TechniquesSurface Roughness and Optical MeasurementsPhotonic Crystals and Applications
Impact of Hybrid Electromagnetic Surface Modes on the Formation of Low Spatial Frequency LIPSS: A Universal Approach | Litcius