Beam Propagation Method Based on Fast Fourier Transform and Finite Difference Schemes and its Application to Optical Diffraction Grating. - Egyptian Knowledge Bank

129254

Beam Propagation Method Based on Fast Fourier Transform and Finite Difference Schemes and its Application to Optical Diffraction Grating.

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Last updated: 22 Jan 2023

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Accurate modeling of photonic devices is essential for the development of new higher performance optical components required by current and future large or wide bandwidth communication systems. This paper introduces several key techniques for such modeling, many of which are used in commercial design tools. These include several techniques of the beam propagation methods (BPM), such as fast Fourier transform ( FFT BPM), wide angle fast Fourier transform ( WAFFT-BPM), scalar finite difference (FD-BPM), scalar wide angle finite difference beam propagation method (WAFD-BPM), Generalized Douglas finite difference (GDFD-BPM), and full vectorial finite difference beam propagation method (FVFD-BPM). The numerical simulations are applied to a real optical diffraction grating fabricated by a double-ion exchange technique.

DOI

10.21608/bfemu.2020.129254

Keywords

Beam propagation method (BPM), fast Fourier transform (FFT-BPM), the finite-difference (FD-BPM) and full vectorial finite-difference beam propagation method (FVFD-BPM)

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First Name

Ahmed

Last Name

Samra

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Department of Electronics and Communication Engineering., Faculty of Engineering ., Mansoura University., Mansoura., Egypt

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Mansoura

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Bedeer

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Yousif

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Bedeer

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Electronics and Communications Dept. Faculty of Engineering ., Mansoura University., Mansoura., Egypt

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Mansoura

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19222

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2006-03-01

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2006-01-11

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2020-12-12

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1110-0923

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2735-4202

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BFEMU_Volume 31_Issue 1_Pages 67-81.pdf

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MEJ. Mansoura Engineering Journal

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22 Jan 2023

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BFEMU_Volume 31_Issue 1_Pages 67-81.pdf

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