Polarization-mode dispersion of large mode-area photonic crystal fibers

two traces shown in Figure 5, the DOP variations can be greatly improved from 60% to 13%. In particular, at a long wavelength of 1580 nm, the DOP can be increased from 20% to 80%. This laser with an A-D-A SOP feedback-control circuit can be applied in wavelength-response measurement for wavelength d

A passively mode-locked ytterbium-doped largemode-area photonic crystal fiber oscillator operating in the vicinity of zero cavity dispersion is demonstrated. The self-starting mode-locking operation is achieved by a high contrast saturable absorber mirror. Two mode-locking regimes with opposite sign

We reported the 5W picosecond laser with pulse width of 30 ps and the repetition rate of 100 MHz, which was amplified to 40.2 W with the linear polarized Yb-doped photonic crystal fiber (PCF), with the slope efficiency of about 58%. As much as 17.3 W second-harmonic power was achieved corresponding

A photonic crystal fiber (PCF) is proposed that, through novel design, achieves an enhanced effective mode area. The PCF is composed of two concentric elliptical cores. The central core is un-doped silicon whilst the second, outer core region, is doped. The outer doped region is also bordered by lig

An assortment of photonic-crystal fibers with a core area varying from 20 to 50 μm^2^ is used to demonstrate efficient frequency conversion of megawatt femtosecond Cr:forsterite laser pulses with a central wavelength of 1.24 μm into the visible and infrared spectral ranges. Supercontinuum radiation