Title :
Ultra-flattened dispersion photonic crystal fiber
Author :
Areed, Nihal F F ; Elmikati, Hamdy
Author_Institution :
Mansoura Univ., Mansoura, Egypt
Abstract :
A full vectorial finite difference frequency domain (FDFD) analysis is effectively applied to investigate the modal characteristics of photonic crystal fibers (PCFs). Comparison with a full vectorial imaginary distance beam propagation (FVIDBP) method based on finite element scheme is made and excellent agreement is achieved. Moreover, a detailed study of PCF with hexagonal array of holes has been carried out with the purpose of optimizing both the leakage loss and the chromatic dispersion.
Keywords :
finite difference methods; finite element analysis; holey fibres; optical fibre dispersion; optical fibre losses; photonic crystals; FDFD analysis; FVIDBP method; PCF; chromatic dispersion; finite element method; full vectorial finite difference frequency domain; full vectorial imaginary distance beam propagation; hexagonal hole array; leakage loss; modal characteristics; photonic crystal fibers; ultraflattened dispersion photonic crystal fiber; Dispersion; Equations; Finite difference methods; Finite element methods; Frequency domain analysis; Impedance; Optical propagation; Permittivity; Photonic crystal fibers; Time domain analysis; dispersion; finite difference frequency domain; holey fibers; leakage loss; photonic crystal fiber;
Conference_Titel :
Radio Science Conference, 2009. NRSC 2009. National
Conference_Location :
New Cairo
Print_ISBN :
978-1-4244-4214-0
