A phenomenological model of random birefringence in single-mode optical fibers

We analyze nonlinear coupling of polarized solitons in the presence of initial frequency chirp on the basis of a theoretical model described by a coupled nonlinear Schrodinger equations. Ẅe also obtain a threshold condition for the bound state of two polarizations and show analytically that the thr

periments, it was found that the TF and ETD schemes show good accuracy at moderate computational effort for a wide range of electric conductivities. In addition, we proposed a global time-step adjustment and the use of the adaptive-gridding technique for FDTD simulations comprising media with differ

## 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 The physical properties of single, 5–8‐μm diameter, water‐swollen elastin fibers have been investigated on a microtest apparatus attached to a polarizing microscope. Analysis of the mechanical and optical properties at extensions below 100% indicate that the elastic modulus (__G__) has

The problem of excess loss in single-mode germanosilicate optical fibers with GeO content 20 to 35 mol% is experimentally 2 studied. Excess loss in such fibers is due to the drawing-induced defects, UV absorption tail and scattering. It is sensitive to drawing conditions and to codoping with F and P

## Abstract This article compares the performance of standard single mode fiber (SMF) with 62.5/125 μm multimode fiber (MMF) for radio‐over‐fiber links using 850 nm multimode vertical cavity surface emitting lasers. The results show SMF links suffer from a coupling loss of 15.3 dB which is compensa