Colloidal holography and crystal dislocations

Michael P. MacDonald; Paul Prentice; Kishan Dholakia

doi:10.1117/12.614843

Colloidal holography and crystal dislocations

Michael P. MacDonald, Paul Prentice, Kishan Dholakia

Department of Physics

Research output: Contribution to journal › Conference article › peer-review

Abstract

The analogous nature of dislocations in crystals and light leads to some interesting links between the properties of optical and crystal dislocations ¹. A dislocation in a crystal can be described by a Burgers vector b, whilst a dislocation in a laser mode such as the vortex in a Laguerre Gaussian beam, can be described by a topological charge l ². By illuminating both optically trapped and self-assembled two-dimensional colloidal crystals with a Gaussian laser beam, we show a direct link between crystal and light dislocations, where the first order diffraction pattern from a crystal with Burgers' vector b = na contains vortex laser modes of topological charge l = ±mn, (where n is an integer, a is the lattice constant of the crystal and m is an integer corresponding to the diffraction order).

Original language	English
Article number	593017
Pages (from-to)	1-11
Number of pages	11
Journal	Proceedings of SPIE - The International Society for Optical Engineering
Volume	5930
DOIs	https://doi.org/10.1117/12.614843
Publication status	Published - 2005
Event	Optical Trapping and Optical Micromanipulation II - San Diego, CA, United States Duration: 2005 Jul 31 → 2005 Aug 4

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Computer Science Applications
Applied Mathematics
Electrical and Electronic Engineering

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10.1117/12.614843

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title = "Colloidal holography and crystal dislocations",

abstract = "The analogous nature of dislocations in crystals and light leads to some interesting links between the properties of optical and crystal dislocations 1. A dislocation in a crystal can be described by a Burgers vector b, whilst a dislocation in a laser mode such as the vortex in a Laguerre Gaussian beam, can be described by a topological charge l 2. By illuminating both optically trapped and self-assembled two-dimensional colloidal crystals with a Gaussian laser beam, we show a direct link between crystal and light dislocations, where the first order diffraction pattern from a crystal with Burgers' vector b = na contains vortex laser modes of topological charge l = ±mn, (where n is an integer, a is the lattice constant of the crystal and m is an integer corresponding to the diffraction order).",

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AU - Prentice, Paul

AU - Dholakia, Kishan

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N2 - The analogous nature of dislocations in crystals and light leads to some interesting links between the properties of optical and crystal dislocations 1. A dislocation in a crystal can be described by a Burgers vector b, whilst a dislocation in a laser mode such as the vortex in a Laguerre Gaussian beam, can be described by a topological charge l 2. By illuminating both optically trapped and self-assembled two-dimensional colloidal crystals with a Gaussian laser beam, we show a direct link between crystal and light dislocations, where the first order diffraction pattern from a crystal with Burgers' vector b = na contains vortex laser modes of topological charge l = ±mn, (where n is an integer, a is the lattice constant of the crystal and m is an integer corresponding to the diffraction order).

AB - The analogous nature of dislocations in crystals and light leads to some interesting links between the properties of optical and crystal dislocations 1. A dislocation in a crystal can be described by a Burgers vector b, whilst a dislocation in a laser mode such as the vortex in a Laguerre Gaussian beam, can be described by a topological charge l 2. By illuminating both optically trapped and self-assembled two-dimensional colloidal crystals with a Gaussian laser beam, we show a direct link between crystal and light dislocations, where the first order diffraction pattern from a crystal with Burgers' vector b = na contains vortex laser modes of topological charge l = ±mn, (where n is an integer, a is the lattice constant of the crystal and m is an integer corresponding to the diffraction order).

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Colloidal holography and crystal dislocations

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