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Magneto-optical garnet based optical circulator was designed and fabricated with wafer-scale technology. Modeling and simulation strategy is established for the optimization of a new design of circulator based on ring cavity. Wafer-scale technological process is developed and demonstrated allowing fabrication of the optimized BIG/GGG buried ring circulator.
Light emission excited by scanning tunnelling microscopy (STM) has been observed on multiwall
carbon nanotubes. The photon yield depends on the scanned tube but it is constant all along the tube.
Simultaneous photon spectroscopy evidences emitted wavelengths in the 600−1000 nm range in good
agreement with previous field emission data. Emission characteristics are independent of substrate and of STM tip. We discuss how these new results are consistent with radiative transitions involving localized
states in carbon nanotubes.
We present a comparative in situ RHEED and Polar Magneto-optic Kerr Effect study of the first stages of the growth of a Au overlayer on top of a (111) Co ultrathin film. Drastic behaviours are evidenced on the RHEED diagram, Magnetic anisotropy and coercive force, around 1,5 ML of Au coverage.
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