Synergy of electromagnetic effects and thermophysical properties of metals in the formation of laser-induced periodic surface structures

Abstract: Femtosecond (fs) pulsed lasers have been widely used over the past few decades for precise materials structuring at the micro- and nano-scales. However, in order to realize efficient material processing and account for the formation of laser-induced periodic surface structures (LIPSS), it is very important to understand the fundamental laser–matter interaction processes. A significant contribution to the LIPSS profile appears to originate from the electromagnetic fingerprint of the laser source. In this work, … Show more

“…The simulation is based on the release of phase-transition latent heat and can compute the linewidth of the resulting line structures. Tsibidis, Lingos, and Stratakis [8] DOI: 10.1002/adem.202301534…”

“…The simulation is based on the release of phase‐transition latent heat and can compute the linewidth of the resulting line structures. Tsibidis, Lingos, and Stratakis [ 8 ] analyzed the influence of electromagnetic effects and thermophysical properties of metals in the formation of laser‐induced periodic surface structures. Therefore, they developed a simulation to stepwise replicate the height profile of a line structure after multiple irradiations.…”

Structure and Validation of a Kinematic Surface Simulation Model for the Direct Laser Writing Process

“…The simulation is based on the release of phase-transition latent heat and can compute the linewidth of the resulting line structures. Tsibidis, Lingos, and Stratakis [8] DOI: 10.1002/adem.202301534…”

“…The simulation is based on the release of phase‐transition latent heat and can compute the linewidth of the resulting line structures. Tsibidis, Lingos, and Stratakis [ 8 ] analyzed the influence of electromagnetic effects and thermophysical properties of metals in the formation of laser‐induced periodic surface structures. Therefore, they developed a simulation to stepwise replicate the height profile of a line structure after multiple irradiations.…”

Structure and Validation of a Kinematic Surface Simulation Model for the Direct Laser Writing Process

Impact of plasmonic modes on the formation of self-organized nano-patterns in thin films

Impact of Plasmonic Modes and Metal Thermophysical Properties on the Formation of Self-Organised Nano-Patterns in Thin Films