Optical manipulation of airborne particles: techniques and applications | Zendy

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

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Optical manipulation of airborne particles: techniques and applications

Author(s) -

David McGloin,

Daniel R. Burnham,

Michael D. Summers,

Daniel Rudd,

Neil Dewar,

Suman Anand

Publication year - 2007

Publication title -

faraday discussions

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.255

H-Index - 110

eISSN - 1364-5498

pISSN - 1359-6640

DOI - 10.1039/b702153d

Subject(s) - aerosol , holography , trapping , trap (plumbing) , optical tweezers , range (aeronautics) , radiation pressure , optics , materials science , beam (structure) , physics , meteorology , composite material , ecology , biology

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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