Analysis of voltage effect on holographic gratings by modulation transfer function

Rosangela Coromoto Fontanilla-Urdaneta; Arturo Olivares-Pérez; Israel Fuentes-Tapia; Mónica Areli Ríos-Velasco

doi:10.1364/AO.50.001827

Applied Optics
Vol. 50,
Issue 13,
pp. 1827-1831
(2011)
•https://doi.org/10.1364/AO.50.001827

Analysis of voltage effect on holographic gratings by modulation transfer function

Rosangela Coromoto Fontanilla-Urdaneta, Arturo Olivares-Pérez, Israel Fuentes-Tapia, and Mónica Areli Ríos-Velasco

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Rosangela Coromoto Fontanilla-Urdaneta, Arturo Olivares-Pérez, Israel Fuentes-Tapia, and Mónica Areli Ríos-Velasco, "Analysis of voltage effect on holographic gratings by modulation transfer function," Appl. Opt. 50, 1827-1831 (2011)

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Abstract

The experimental data allow us to determine the imaging quality of holographic gratings with photosensitive film using organic material based on a polyvinyl alcohol matrix doped with potassium dichromate and nickel (II) chloride hexahydrate. The diffraction efficiency is estimated by different spatial frequencies, and the readout image quality is analyzed by the modulation transfer function. The experiment is carried out, with and without voltage application, at different spatial frequencies to obtain the image quality of photosensitive film.

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Component	Chemical Formula	Trademark	Purity	Molecular Weight ( $M_{w}$ )	Solution Weight Composition
Poly vinyl alcohol (PVA)	$(C_{2} H_{4} O)_{x}$	Meyer	95.0% [11]	$30000 g / ml$	7%
Potassium dichromate (DCP)	$K_{2} {Cr}_{2} O_{7}$	Baker	99.0%	$294.19 g / ml$	10%
Nickel (II) chloride hexahydrate (NICHEX)	${Nicl}_{2} • 6 H_{2} O$	Baker	97.0%	$237.71 g / ml$	10%
Glycerol (Gly)	$C_{3} H_{5} (OH)_{3}$	Meyer	99.8%	$92.10 g / ml$	100%

	Angle	Spatial Frequency (lines/mm)
$β_{1}$	$24.3 °$	666
$β_{2}$	$26.6 °$	726
$β_{3}$	$28.1 °$	766
$β_{4}$	$30.0 °$	816
$β_{5}$	$32.3 °$	878
$β_{6}$	$36.1 °$	978
$β_{7}$	$40.6 °$	1098

Component	Chemical Formula	Trademark	Purity	Molecular Weight ( $M_{w}$ )	Solution Weight Composition
Poly vinyl alcohol (PVA)	$(C_{2} H_{4} O)_{x}$	Meyer	95.0% [11]	$30000 g / ml$	7%
Potassium dichromate (DCP)	$K_{2} {Cr}_{2} O_{7}$	Baker	99.0%	$294.19 g / ml$	10%
Nickel (II) chloride hexahydrate (NICHEX)	${Nicl}_{2} • 6 H_{2} O$	Baker	97.0%	$237.71 g / ml$	10%
Glycerol (Gly)	$C_{3} H_{5} (OH)_{3}$	Meyer	99.8%	$92.10 g / ml$	100%

	Angle	Spatial Frequency (lines/mm)
$β_{1}$	$24.3 °$	666
$β_{2}$	$26.6 °$	726
$β_{3}$	$28.1 °$	766
$β_{4}$	$30.0 °$	816
$β_{5}$	$32.3 °$	878
$β_{6}$	$36.1 °$	978
$β_{7}$	$40.6 °$	1098

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Applied Optics