The Chemistry and Physics of Bayfol ® HX Film Holographic Photopolymer

Holographic photopolymers are a new technology to create passive diffractive optical elements by a pure laser interference recording. In this review, we explain the chemistry concepts of light harvesting in an interference pattern and the subsequent grating formation as chemical response. Using the...

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Veröffentlicht in:	Polymers 2017-09, Vol.9 (10), p.472
Hauptverfasser:	Bruder, Friedrich-Karl, Fäcke, Thomas, Rölle, Thomas
Format:	Artikel
Sprache:	eng
Schlagworte:	Chemistry Diffraction efficiency Diffractive optical elements Dosage Gratings (spectra) Interference New technology Optical components Photopolymers Recording Review
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container_title	Polymers
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creator	Bruder, Friedrich-Karl Fäcke, Thomas Rölle, Thomas
description	Holographic photopolymers are a new technology to create passive diffractive optical elements by a pure laser interference recording. In this review, we explain the chemistry concepts of light harvesting in an interference pattern and the subsequent grating formation as chemical response. Using the example of the newly developed Bayfol HX film we discuss the reaction-diffusion driven photo-polymerization process for an index modulation formation to create volume phase gratings. Further we elucidate the selection of monomer chemistry and discuss details of the recording conditions based on the concept of exposure dosage and exposure time. Influences ranging from high dosage recording to low power recording are explained and how to affect the desired diffraction efficiency. Finally, we outline and demonstrate the process to mass manufacturing of volume phase gratings.
doi_str_mv	10.3390/polym9100472
format	Article
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subjects	Chemistry Diffraction efficiency Diffractive optical elements Dosage Gratings (spectra) Interference New technology Optical components Photopolymers Recording Review
title	The Chemistry and Physics of Bayfol ® HX Film Holographic Photopolymer
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