Supercontinuum generation in single crystal sapphire fibers

We report on the generation of a high average power, flat supercontinuum using a compact ytterbium-doped fiber amplifier. The femto-and picosecond pulses delivered by the amplifier are coupled into two different photonic crystal fibers. By using picosecond pulses the highest output power of 5 W with

In this paper we report on the fabrication of a photonic crystal fiber with nanoporous core made of in-house synthesized silicate glass. The fiber uses three rings of holes around a core with a diameter of 4.7 μm. It effectively guides two modes with broadband flat normal dispersion and zero dispers

## Abstract We demonstrate the generation of an ultraflat supercontinuum from an 80‐m long dispersion‐flattened microstructure fiber when coupling a 1.6‐ps pump pulse at a wavelength of 1550 nm. Over 1000 channels of 10‐GHz spacing are generated in a bandwidth of 80 nm, with a flatness of ±1.5 dB i

For the first time to our best knowledge we have used Ho-doped fiber amplifier to get supercontinuum in the mid-IR range using all-fiber scheme. To pump the source Qswitched Er-doped fiber was used. The observed spectrum covers the spectral range from 2000 to 2500 nm with the power variation less th

In this paper we report on ultra flat supercontinuum generation in dual core photonic crystal fiber pumped in the normal dispersion regime. The fiber cladding is fabricated from custom NC21 borosilicate glass while the fiber cores is made of commercially available F2 high index lead-silicate glass f