The numerical simulation and analysis of the dispersion properties of a novel hexagonal core Photonic Crystal Fiber(PCF) are performed by using the multipole method.

The multipole method of the softwareware package is adopted to numerical value and analyze the dispersion properties of six angle photonic crystal fiber.

The fundamental mode losses characteristics of total internal reflection photonic crystal fibers(PCF) are simulated numerically by the multipole method.

Using multi-pole method,based on the inner four rings,by altering the cladding holes diameter d under three cases,three different kinds of photonic crystal fibers(PCFs) were designed.

Based on the multi-pole method,a kind of step-structure photonic crystal fiber(PCF)is put forward.

In view of this,based on reviewing several calculation methods of two-dimensional photonic crystal band gap such as plane wave expansion method,FDTD method,multi-pole method.

55 μm are numerically studied by multipole method.

55μm is studied numerically by multipole method.

The model field, dispersion, birefringence and confinement loss of the fibre fundamental mode are simulated by multipole method.

On the base of prediction of ship motion response using linear strip theory,this paper improves and expands the conventional multipole expansion method.