Optical manipulation of airborne particles: Techniques and applications

David McGloin; Daniel R. Burnham; Michael D. Summers; Daniel Rudd; Neil Dewar; Suman Anand

doi:10.1039/b702153d

Optical manipulation of airborne particles: Techniques and applications

David McGloin^*, Daniel R. Burnham, Michael D. Summers, Daniel Rudd, Neil Dewar, Suman Anand

^*Corresponding author for this work

Physics

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

92 Citations (Scopus)

Abstract

In the following paper, we discuss new methods to trap and manipulate airborne liquid aerosol droplets. We discuss the single gradient force trapping of water aerosols in the 2-14 micron diameter range using both 532 nm and 1064 nm light, as well as the holographic optical trapping of arrays of aerosols. Using this holographic technique, we are able to show controlled aerosol coagulation. We also discuss two techniques based on the radiation pressure trapping of aerosols, namely the dual beam fibre trap and the controlled guiding of aerosols using Bessel beams. We conclude with a discussion of new topics for study based upon these techniques and some possible applications.

Original language	English
Pages (from-to)	335-350
Number of pages	16
Journal	Faraday Discussions
Volume	137
Early online date	30 Jul 2007
DOIs	https://doi.org/10.1039/b702153d
Publication status	Published - 2008

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abstract = "In the following paper, we discuss new methods to trap and manipulate airborne liquid aerosol droplets. We discuss the single gradient force trapping of water aerosols in the 2-14 micron diameter range using both 532 nm and 1064 nm light, as well as the holographic optical trapping of arrays of aerosols. Using this holographic technique, we are able to show controlled aerosol coagulation. We also discuss two techniques based on the radiation pressure trapping of aerosols, namely the dual beam fibre trap and the controlled guiding of aerosols using Bessel beams. We conclude with a discussion of new topics for study based upon these techniques and some possible applications.",

author = "David McGloin and Burnham, {Daniel R.} and Summers, {Michael D.} and Daniel Rudd and Neil Dewar and Suman Anand",

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T2 - Techniques and applications

AU - McGloin, David

AU - Burnham, Daniel R.

AU - Summers, Michael D.

AU - Rudd, Daniel

AU - Dewar, Neil

AU - Anand, Suman

PY - 2008

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N2 - In the following paper, we discuss new methods to trap and manipulate airborne liquid aerosol droplets. We discuss the single gradient force trapping of water aerosols in the 2-14 micron diameter range using both 532 nm and 1064 nm light, as well as the holographic optical trapping of arrays of aerosols. Using this holographic technique, we are able to show controlled aerosol coagulation. We also discuss two techniques based on the radiation pressure trapping of aerosols, namely the dual beam fibre trap and the controlled guiding of aerosols using Bessel beams. We conclude with a discussion of new topics for study based upon these techniques and some possible applications.

AB - In the following paper, we discuss new methods to trap and manipulate airborne liquid aerosol droplets. We discuss the single gradient force trapping of water aerosols in the 2-14 micron diameter range using both 532 nm and 1064 nm light, as well as the holographic optical trapping of arrays of aerosols. Using this holographic technique, we are able to show controlled aerosol coagulation. We also discuss two techniques based on the radiation pressure trapping of aerosols, namely the dual beam fibre trap and the controlled guiding of aerosols using Bessel beams. We conclude with a discussion of new topics for study based upon these techniques and some possible applications.

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VL - 137

SP - 335

EP - 350

JO - Faraday Discussions

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ER -

Optical manipulation of airborne particles: Techniques and applications

Abstract

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