Investigation of thermal influence on the bandgap properties of liquid-crystal photonic crystal fibers

## Abstract The photonic bandgaps and modal properties of triangular lattice photonic bandgap photonic crystal fibers (PBG‐PCFs) with interstitial holes are analyzed by the full‐vector plane‐wave expansion method. We analyzed the influence of the air holes array triangular lattice cladding and the

## Abstract The application of a nematic liquid crystal infiltrated solid core photonic crystal fiber as a novel all‐fiber in‐line electronically controlled broadband fiber optic attenuator in the wavelength range from 1500 to 1600 nm is demonstrated.The device based on photonic bandgap transmissio

We demonstrate single-mode guiding in a 4-μminner-diameter hollow photonic-crystal fiber filled with a highly nonlinear liquid. The nonlinear response of such a fiber is shown to drastically differ from a typical nonlinear response of a silica waveguide. Strong inertia of optical nonlinearity of the

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