Ultraviolet-Extended Supercontinuum Generation in Zero-Dispersion Wavelength Decreasing Photonic Crystal Fibers

Abstract: Supercontinuum covering the ultraviolet-blue region is highly useful for fluorescence microscopy. Four zero-dispersion wavelength decreasing photonic crystal fibers with different fiber cross structures and taper profiles are fabricated to extend the short wavelength edge of supercontinuum. Both nanosecond and picosecond pump pulses at 1 μm are used to generate supercontinuum. With a 3 ns pump pulse, the short wavelength edge of supercontinuum is extended to below 400 nm in a fiber with high air-hole ratio (na… Show more

“…Just recently, QPM has been introduced as a consequence of a longitudinally varying waveguide dispersion, leading to a variety of novel nonlinear features in optical waveguides. [ 23 , 24 , 25 , 26 ] Indeed, the scheme was experimentally employed to adapt supercontinuum generation [ 27 , 28 ] and four‐wave mixing [ 29 , 30 ] in on‐chip waveguides, and modulation instability in diameter oscillating fibers. [ 31 ] The effect is similar to Kelly sideband formation in amplifier chains.…”

Tailored Multi‐Color Dispersive Wave Formation in Quasi‐Phase‐Matched Exposed Core Fibers

“…Just recently, QPM has been introduced as a consequence of a longitudinally varying waveguide dispersion, leading to a variety of novel nonlinear features in optical waveguides. [ 23 , 24 , 25 , 26 ] Indeed, the scheme was experimentally employed to adapt supercontinuum generation [ 27 , 28 ] and four‐wave mixing [ 29 , 30 ] in on‐chip waveguides, and modulation instability in diameter oscillating fibers. [ 31 ] The effect is similar to Kelly sideband formation in amplifier chains.…”

Tailored Multi‐Color Dispersive Wave Formation in Quasi‐Phase‐Matched Exposed Core Fibers

500-nm broadband light generation in highly nonlinear dispersion shifted fiber by soliton laser

Ultra-Flat Supercontinuum Generation in an All-Fiber Self-Q-Switched Er/Yb Laser