Two kinds of fabricated hollow-core photonic crystal fibres (HC-PCFs) are studied using finite element method (FEM) because the structures of the fibres are special. Normalized transmission spectra and transverse intensity distribution of the modes are calculated and measured. And the dispersion characteristics of these two kinds of HCPCFs were analysed from 400nm to 800nm. Simulated and measured results show that the special structure could affect the properties of HC-PCFs. By comparing the simulated values with the measured results, it can be clarified that FEM is feasible and accurate for analysing photonic crystal fibres whose structures are irregular and complex. Two kinds of fabricated hollow-core photonic crystal fibers (HC-PCFs) are studied using finite element method (FEM) because the structures of the fibers are special. Normalized transmission spectra and transverse intensity distribution of the modes are calculated and measured. And the The dispersion characteristics of these two kinds of HCPCFs were analyzed from 400 nm to 800 nm. Simulated and measured results show that the special structure could affect the properties of HC-PCFs. By comparing the simulated values ​​with the measured results, it can be clarified that FEM is feasible and accurate for analysing photonic crystal fibers whose structures are irregular and complex.