Abstract
The formation of a new type of laser-induced periodic surface structures using a femtosecond pulsed laser is studied on the basis of the Sipe–Drude theory solved with a finite-difference time-domain scheme. Our numerical results indicate the possibility of coexisting structures parallel and perpendicular to the polarization of the incident light for low reduced collision frequency (, where ω is the laser frequency). Moreover, these structures have a periodicity of in both orientations. To explain this behavior, light–matter interaction around a single surface inhomogeneity is also studied and confirms the simultaneous presence of surface plasmon polaritons and radiation remnants in orthogonal orientations at low values.
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