The enhancement characteristics of the local field in the surface plasmon nanocavities are investigated numerically.The cavity is constructed by placing a defect structure in the thickness-modulated metal-insulator-metal waveguide Bragg gratings.The characteristic impedance based transfer matrix method is used to calculate the transmission spectra and the resonant wavelength of the cavities with various geometric parameters.The finite-difference timedomain method is used to obtain the field pattern of the resonant mode and validate the results of the transfer matrix method.The calculation and simulation results reveal the existence of resonant wavelength shift and intensity variation with structural parameters,such as the modulation period of the gratings,the length and the width of the defect structure.Both numerical analysis and theoretical interpretation on these phenomena are given in details. The enhancement characteristics of the local field in the surface plasmon nanocavities are investigated numerically. The cavity is constructed by placing a defect structure in the thickness-modulated metal-insulator-metal waveguide Bragg gratings. The characteristic impedance based transfer matrix method is used to calculate the transmission spectra and the resonant wavelength of the cavities with various geometric parameters. The finite-difference time domain method used to obtain the field pattern of the resonant mode and validate the results of the transfer matrix method. The calculation and simulation results reveal the existence of resonant wavelength shift and intensity variation with structural parameters, such as the modulation period of the gratings, the length and the width of the defect structure.Both numerical analysis and theoretical interpretation on these phenomena are given in details.