论文信息 - Propagating beam analysis of fiber wavelength filters with a depressed-index section

Propagating beam analysis of fiber wavelength filters with a depressed-index section

Abstract A wavelength filter consisting of single-mode and few-mode fibers is investigated numerically. A simple finite-difference beam-propagation method, in which a transparent boundary condition can be imposed, is developed for circularly symmetric waveguides. After confirming the validity of the numerical method by the mode-mismatch loss, we calculate the propagating field in the fiber wavelength filter, in which interference between LP01, and LP02 modes occurs. To improve the filtering operation, a depressed-index fiber is employed for the few-mode fiber. The effects of the radius and refractive index of the depressed section on the transmission power are revealed and discussed. Power is suppressed to less than 0.1% at 1.3 μm, while maintaining power transmission of more than 85% at 1.55 μm. It is also found that the filtering operation shifts to higher wavelengths as the input power is increased when we choose a self-focusing nonlinear material in the depressed section.

[1] Miguel A. Muriel,et al. Depressed-index waveguides (DIW's) in integrated optics , 1990 .

[2] Richard J. Black,et al. Broadband all‐fiber filters for wavelength division multiplexing application , 1989 .

[3] Takashi Ando,et al. Finite-Difference Beam-Propagation Method for Circularly Symmetric Fields , 1992 .

[4] Richard J. Black,et al. Circularly symmetric modal interferometers: Equalization wavelength and equivalent step determination for matched-cladding fibers , 1989 .

[5] A. Neyer. Integrated-optical multichannel wavelength multiplexer for monomode systems , 1984 .

[6] Youngchul Chung,et al. An assessment of finite difference beam propagation method , 1990 .

[7] G. Georgiou,et al. Biconical taper coaxial optical fibre coupler , 1985 .

[8] M. Feit,et al. Simple spectral method for solving propagation problems in cylindrical geometry with fast Fourier transforms. , 1989, Optics letters.

[9] Richard J. Black,et al. Mode coupling in nonuniform fibers: comparison between coupled-mode theory and finite-difference beam-propagation method simulations , 1991 .

[10] G. R. Hadley,et al. Transparent boundary condition for beam propagation. , 1991, Optics letters.