David Hansford scite author profile

David Hansford

5Publications

23Citation Statements Received

91Citation Statements Given

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109

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University of Oxford, Myerscough College

Publications

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Speckle contrast reduction of laser light using a chiral nematic liquid crystal diffuser

Hansford

Fells

Elston

et al. 2016

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High coherence in laser light causes spatially distributed interference called speckle. In applications such as holographic projection, this undesirable side effect degrades image clarity. The current methods of speckle reduction, such as a rotating ground-glass diffuser, require additional bulky moving parts. Here, we present an alternative technology based upon a compact, electrohydrodynamic chiral nematic liquid crystal device. A spatially random phase modulation of the incident light is achieved through the electrohydrodynamic instabilities that are induced by an alternating electric field. Using a chiral nematic liquid crystal device that is doped with an ionic compound, we find that the speckle contrast can be reduced by as much as 80%.

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Enhancing laser speckle reduction by decreasing the pitch of a chiral nematic liquid crystal diffuser

Hansford

Jin

Elston

et al. 2021

Sci Rep

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The artefact known as speckle can plague numerous imaging applications where the narrow linewidth of laser light is required, which includes laser projection and medical imaging. Here, we report on the use of thin-film chiral nematic liquid crystal (LC) devices that can be used to mitigate the influence of speckle when subjected to an applied electric field. Results are presented which show that the speckle contrast (a quantitative measure of the presence of speckle) can be significantly reduced by decreasing the pitch of the chiral nematic LC from 2700 to 244 nm. Further reduction in the speckle contrast can be observed by operating the diffuser technology at a temperature close to the chiral nematic to isotropic transition. At such temperatures, we observe a simultaneous improvement in the transmission of light through the device and a decrease in the electric field amplitude required for the minimum speckle contrast value. We conclude by presenting a laser projected image of the 1951 USAF target with and without the LC device to demonstrate the visual improvement as a result of the speckle reduction.

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Canopy cover and land-use change in Torbay from 2010 to 2018

Hansford

Slater

2020

Arboricultural Journal

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Liquid crystal speckle reducers for head-up displays and polarization imaging (Conference Presentation)

Jin

Spiller

et al. 2023

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Laser Speckle Reduction Using a Liquid Crystal Diffuser Enhanced with Redox Dopants

Jin

Hansford

Elston

et al. 2021

Advanced Photonics Research

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Herein, a large reduction in the speckle noise is observed using a thin electroresponsive film consisting of a chiral nematic liquid crystal (LC) that has been enhanced with the addition of a redox dopant. Two different redox dopants are investigated over a range of concentrations, one being an electron acceptor and the other being an electron donor redox dopant. Results are presented that show that the incorporation of either of these dopants leads to a greater reduction in the speckle contrast than that observed using just the chiral nematic LC host when subjected to electrohydrodynamic instabilities. Furthermore, it is found that the permanent electrochemical reactions typically observed when ionic dopants, such as cetyltrimethylammonium bromide, are used are not observed for these devices, resulting in a considerable improvement in terms of the operating lifetime of the speckle reducer technology. To conclude, results that show that the speckle contrast can be reduced to C = 0.11 ± 0.02 at a temperature of 30 ºC are presented and the improvement of the quality of an image generated using a modified commercial projector fitted with a monochromatic laser source is demonstrated.

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David Hansford

Speckle contrast reduction of laser light using a chiral nematic liquid crystal diffuser

Enhancing laser speckle reduction by decreasing the pitch of a chiral nematic liquid crystal diffuser

Canopy cover and land-use change in Torbay from 2010 to 2018

Liquid crystal speckle reducers for head-up displays and polarization imaging (Conference Presentation)

Laser Speckle Reduction Using a Liquid Crystal Diffuser Enhanced with Redox Dopants

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