Visible diffraction from graphene and its application in holograms

Haider Butt; Piran R. Kidambi; Bruno Dlubak; Yunuen Montelongo; Ananta Palani; Gehan A.J. Amaratunga; Stephan Hofmann; Timothy D. Wilkinson

doi:10.1002/adom.201300320

Visible diffraction from graphene and its application in holograms

Haider Butt, Piran R. Kidambi, Bruno Dlubak, Yunuen Montelongo, Ananta Palani, Gehan A.J. Amaratunga, Stephan Hofmann, Timothy D. Wilkinson

Mechanical & Nuclear Engineering

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

16 Scopus citations

Abstract

A fundamental study of visible diffraction effects from patterned graphene layers is presented. By patterning graphene into optical gratings, visible diffraction from graphene is experimentally measured as a function of the number of layers and visible wavelengths. A practical application of these effects is also presented, by demonstrating an optical hologram based on graphene. A high resolution (pixel size 400 nm) intensity hologram is fabricated which, in response to incident laser light, generates a visible image. These findings suggest that visible diffraction in graphene can find practical application in holograms and should also be considered during the design and characterisation of graphene-based optical applications.

Original language	British English
Pages (from-to)	869-874
Number of pages	6
Journal	Advanced Optical Materials
Volume	1
Issue number	11
DOIs	https://doi.org/10.1002/adom.201300320
State	Published - Nov 2013

Keywords

Diffraction gratings
Graphene
Holograms
Visible diffraction

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10.1002/adom.201300320

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title = "Visible diffraction from graphene and its application in holograms",

abstract = "A fundamental study of visible diffraction effects from patterned graphene layers is presented. By patterning graphene into optical gratings, visible diffraction from graphene is experimentally measured as a function of the number of layers and visible wavelengths. A practical application of these effects is also presented, by demonstrating an optical hologram based on graphene. A high resolution (pixel size 400 nm) intensity hologram is fabricated which, in response to incident laser light, generates a visible image. These findings suggest that visible diffraction in graphene can find practical application in holograms and should also be considered during the design and characterisation of graphene-based optical applications.",

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AU - Dlubak, Bruno

AU - Montelongo, Yunuen

AU - Palani, Ananta

AU - Amaratunga, Gehan A.J.

AU - Hofmann, Stephan

AU - Wilkinson, Timothy D.

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AB - A fundamental study of visible diffraction effects from patterned graphene layers is presented. By patterning graphene into optical gratings, visible diffraction from graphene is experimentally measured as a function of the number of layers and visible wavelengths. A practical application of these effects is also presented, by demonstrating an optical hologram based on graphene. A high resolution (pixel size 400 nm) intensity hologram is fabricated which, in response to incident laser light, generates a visible image. These findings suggest that visible diffraction in graphene can find practical application in holograms and should also be considered during the design and characterisation of graphene-based optical applications.

KW - Diffraction gratings

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KW - Visible diffraction

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Visible diffraction from graphene and its application in holograms

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Keywords

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