An Algorithm for Beam Propagation Method in Matrix Form
Quantum Electronics, IEEE Journal of(2010)
摘要
A new and efficient method for waveguide field calculation is proposed. In the proposed Fourier cosine beam propagation method, both dispersion and waveguide effects for each propagation interval are treated in a matrix form. Such a calculation method converts the conventional point-by-point analysis skill into a matrix-based one. By using the matrix method, the computing time required for calculating the field evolution is much less than that required by using the commonly used finite-difference beam propagation method. Two y-branches with, respectively, a rib-type and a channel-type cross sections are tested. The numerical results demonstrate the efficiency of the proposed method.
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关键词
fourier cosine beam propagation method,point-by-point analysis,light propagation,fourier series,matrix equation,waveguide effects,matrix algebra,scalar wave,dispersion,fourier cosine beam propagation,finite-difference method,quasi-te wave,waveguide field calculation,optical waveguide theory,rib-type cross section,matrix form,waveguide effect,finite difference methods,optical dispersion,finite-difference beam propagation,beam propagation method,channel-type cross section,dispersion effects,optical waveguides,refractive index,photonics,mathematical model,finite difference method
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