T. Mugita scite author profile

T. Mugita

2Publications

28Citation Statements Received

66Citation Statements Given

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Affiliations

Fujitsu (Japan), Hosei University

Publications

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Implicit Yee-mesh-based finite-difference full-vectorial beam-propagation method

Yamauchi

Mugita

Nakano

2005

J. Lightwave Technol.

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Abstract-A novel Yee-mesh-based finite-difference fullvectorial beam-propagation method is proposed with the aid of an implicit scheme. The efficient algorithm is developed by splitting the propagation axis into two steps. The eigenmode analysis of a rib waveguide is performed using the imaginary-distance procedure. The results show that the present method offers reduction in computational time and memory, while maintaining the same accuracy as the conventional explicit Yee-mesh-based imaginary-distance beam-propagation method. It is demonstrated by the analysis of a polarization converter that the present method can be used for not only the eigenmode analysis but also the propagating beam analysis.

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A finite-difference time-domain beam-propagation method for TE- and TM-wave analyses

Shibayama

Yamahira

Mugita

et al. 2003

J. Lightwave Technol.

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Abstract-The application of the existing time-domain beampropagation method (TD-BPM) based on the finite-difference (FD) formula has been limited to the TE-mode analysis. To treat the TM mode as well as the TE mode, an improved TD-BPM is developed using a low-truncation-error FD formula with the aid of the alternating-direction implicit scheme. To improve the accuracy in time, a Padé (2,2) approximant is applied to the time axis. Although the truncation error in time is found to be (1 2 ),asinthecaseofthe Padé (1,1) approximant, this method allows us to use a large time step. A substantial reduction in CPU time is found when compared to the conventional method in which a broadly banded matrix is solved by the Bi-CGSTAB. The effectiveness in evaluating the TEand TM-mode waves is shown through the analysis of the power reflectivity from a waveguide facet. This method is also applied to the analysis of a waveguide grating. The accuracy and efficiency of the TD-BPM are assessed in comparison with the finite-difference time-domain method.

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T. Mugita

Implicit Yee-mesh-based finite-difference full-vectorial beam-propagation method

A finite-difference time-domain beam-propagation method for TE- and TM-wave analyses

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