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We report on the fabrication of a solid one-dimensional microstructured fiber with high nonlinearity and low dispersion at 1.55 mum. A four-wave-mixing based tunable wavelength-conversion scheme was experimentally demonstrated in just 1.5 m of this fiber.
The authors have presented two techniques for the implementation of high nonlinearity non-silica fibers with tailored dispersion properties. The authors show that even though both techniques present their own challenges and benefits, all-solid MOFs can achieve similar optical properties to complex HF structures, while providing a more straight-forward route to alleviating excess waveguide losses.
We present, for the first time to our knowledge, the use of a dispersion-shifted soft-glass holey fiber (HF) in a Kerr-shutter configuration. Wavelength conversion of 10-Gb/s data pulses is achieved in the C-band using just 2.1 m of a lead-silicate HF with a nonlinear parameter ?? of 164 W-1 ?? km-1. The low dispersion and the short length of the fiber enable short switching windows to be realized.
We demonstrate the production of a well depleted mid-IR continuum with a spectral range between ~0.9 - 2.5 mum using a tellurite wagon wheel microstructured fiber and a pump source at 1.5 mum.
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