The future of the plasmonic devices is heavily challenged by the nanoconstruction schemes
of metals which often require rather fast, low-cost, and high-throughput fabrication
techniques. Laser annealing is considered to be an unrivaled tool for surface manipulation
of thin metallic films, especially with functional plasmonic devices of pre-determined
morphology. Herein, a commercial CW CO2 laser, wavelength of 10.6 µm and optimum
power of 15W, has been used for surface reconstruction of thin Au films, with an initial film …

The future of the plasmonic devices is heavily challenged by the nanoconstruction schemes
of metals which often require rather fast, low-cost, and high-throughput fabrication
techniques. Laser annealing is considered to be an unrivaled tool for surface manipulation
of thin metallic films, especially with functional plasmonic devices of pre-determined
morphology. Herein, a commercial CO 2 laser has been used for surface reconstruction of
thin Au films, with the thickness of 15 nm (±3 nm) sputtered on quartz substrates, as …