Loss analysis of single-mode fiber/photonic-crystal fiber splice

## Abstract A simple formula for calculating the mode‐field diameter of large‐mode‐area endlessly single‐mode photonic‐crystal fiber (PCF) is obtained and used to estimate the splice loss of PCF/single‐mode fiber. The accuracy of splice‐loss estimation is less than 0.2 dB. © 2004 Wiley Periodicals,

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

## Abstract An investigation of the polarization dependent loss (PDL) of macrobending loss sensitive single fiber (1060XP) is presented theoretically and experimentally. The experimental results are in good agreement with the modeling outcomes. Through the comparison of experimental results of PDL

## Abstract An efficient finite‐difference time‐domain method is proposed for the full‐wave analysis of guided modes in photonic crystal fibers. The three‐dimensional hybrid guided modes can be calculated by a two‐dimensional mesh, if one assumes that the propagation constant along the __z__‐direct

## Abstract A novel all‐optical microwave generation technique based on fiber birefringence effect in single‐longitudinal‐mode (SLM) distributed Bragg reflector (DBR) fiber lazer is presented. Owing to the birefringence‐induced mode splitting, the proposed lazer could provide a microwave signal at

## Abstract Multiple mode instabilities in erbium‐doped fiber laser are undesirable due to the large amplitude noise in the laser. One scheme is proposed to suppress this kind of instabilities by inserting a highly nonlinear photonic crystal fiber in the ring cavity. The results show that the nonli