Modeling the Diffraction Efficiency of Reflective-Type PQ-PMMA VBG Using Simplified Rate Equations

Bao Jen Shih; Cuan Wen Chen; Yu Hua Hsieh; Te Yuan Chung; Shiuan-Huei Lin

doi:10.1109/JPHOT.2018.2880947

Modeling the Diffraction Efficiency of Reflective-Type PQ-PMMA VBG Using Simplified Rate Equations

Bao Jen Shih, Cuan Wen Chen, Yu Hua Hsieh, Te Yuan Chung^*, Shiuan-Huei Lin

^*Corresponding author for this work

Department of Electrophysics

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

A simulation based on the rate equations was performed to analyze the concentration distribution of molecules in phenanthrenequinone (PQ) doped polymethyl methacrylate (PMMA) polymers (PQ-PMMAs) exposed using a two-beam interference configuration. The concentration distributions were used to predict the diffraction efficiency of PQ-PMMA-based volume Bragg gratings (VBGs) by using the transfer matrix method. The simulation results suggest that an intermittent exposure method can promote the diffusion of PQ molecules and increase the final diffraction efficiency. A series of experiments validated our hypothesis that the diffraction efficiency of reflective-type PQ-PMMA VBG can be predicted.

Original language	English
Article number	6101307
Pages (from-to)	1-7
Number of pages	7
Journal	IEEE Photonics Journal
Volume	10
Issue number	6
DOIs	https://doi.org/10.1109/JPHOT.2018.2880947
State	Published - 6 Dec 2018

Keywords

Bragg gratings
holographic optical components
optical polymers

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10.1109/JPHOT.2018.2880947

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title = "Modeling the Diffraction Efficiency of Reflective-Type PQ-PMMA VBG Using Simplified Rate Equations",

abstract = "A simulation based on the rate equations was performed to analyze the concentration distribution of molecules in phenanthrenequinone (PQ) doped polymethyl methacrylate (PMMA) polymers (PQ-PMMAs) exposed using a two-beam interference configuration. The concentration distributions were used to predict the diffraction efficiency of PQ-PMMA-based volume Bragg gratings (VBGs) by using the transfer matrix method. The simulation results suggest that an intermittent exposure method can promote the diffusion of PQ molecules and increase the final diffraction efficiency. A series of experiments validated our hypothesis that the diffraction efficiency of reflective-type PQ-PMMA VBG can be predicted.",

keywords = "Bragg gratings, holographic optical components, optical polymers",

author = "Shih, {Bao Jen} and Chen, {Cuan Wen} and Hsieh, {Yu Hua} and Chung, {Te Yuan} and Shiuan-Huei Lin",

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AU - Shih, Bao Jen

AU - Chen, Cuan Wen

AU - Hsieh, Yu Hua

AU - Chung, Te Yuan

AU - Lin, Shiuan-Huei

PY - 2018/12/6

Y1 - 2018/12/6

N2 - A simulation based on the rate equations was performed to analyze the concentration distribution of molecules in phenanthrenequinone (PQ) doped polymethyl methacrylate (PMMA) polymers (PQ-PMMAs) exposed using a two-beam interference configuration. The concentration distributions were used to predict the diffraction efficiency of PQ-PMMA-based volume Bragg gratings (VBGs) by using the transfer matrix method. The simulation results suggest that an intermittent exposure method can promote the diffusion of PQ molecules and increase the final diffraction efficiency. A series of experiments validated our hypothesis that the diffraction efficiency of reflective-type PQ-PMMA VBG can be predicted.

AB - A simulation based on the rate equations was performed to analyze the concentration distribution of molecules in phenanthrenequinone (PQ) doped polymethyl methacrylate (PMMA) polymers (PQ-PMMAs) exposed using a two-beam interference configuration. The concentration distributions were used to predict the diffraction efficiency of PQ-PMMA-based volume Bragg gratings (VBGs) by using the transfer matrix method. The simulation results suggest that an intermittent exposure method can promote the diffusion of PQ molecules and increase the final diffraction efficiency. A series of experiments validated our hypothesis that the diffraction efficiency of reflective-type PQ-PMMA VBG can be predicted.

KW - Bragg gratings

KW - holographic optical components

KW - optical polymers

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JO - IEEE Photonics Journal

JF - IEEE Photonics Journal

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ER -

Modeling the Diffraction Efficiency of Reflective-Type PQ-PMMA VBG Using Simplified Rate Equations

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