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We demonstrate experimentally an optical event horizon in a waveguide structure akin to a hydrodynamic Laval nozzle. The event horizon which forms at the nozzle throat is suggested as a platform for analog gravity experiments.
We introduce a new class of 1 & 2-dimensional beams that overcome both diffraction & absorption, enabling accelerating plasmons that maintain their intensity profile. In free space these beams exhibit a counterintuitive exponential intensity growth.
We desorb polymer films from fused silica with a femtosecond laser and characterize the results by atomic force microscopy. Our study as a function of beam geometry and energy reveals two ways of achieving spatially controlled nanodesorption.
I will review progresses of photonic crystal lasers, which are now recognized as an unprecedented type of lasers that can operate coherently in broad area, produce a tailored beam on demand, realize a beam steering functionality, etc.
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