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We report demonstration of an optical magnetic mirror achieved by nanostructuring a metal surface. In contrast to normal mirrors, it inflicts only small change to the phase of a reflected wave, offering intriguing applications.
We describe the fabrication of a novel type of saturable absorber mirrors based on polymer embedded carbon nanotubes and we demonstrate their performance in mode-locking an Er/Yb:glass laser: 68 fs (45fs Fourier limit) at 85 MHz repetition-rate.
Placing a small drop of gallium on an aluminium film starts a nanoscale grain boundary penetration process that creates a robust, highly nonlinear, switchable mirror suitable for plasmonic and nonlinear optical applications.
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