D
David McGloin
Researcher at University of Technology, Sydney
Publications - 165
Citations - 6805
David McGloin is an academic researcher from University of Technology, Sydney. The author has contributed to research in topics: Optical tweezers & Light beam. The author has an hindex of 36, co-authored 161 publications receiving 5991 citations. Previous affiliations of David McGloin include University of St Andrews & University of Dundee.
Papers
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Journal ArticleDOI
Laser-nucleated acoustic cavitation in focused ultrasound
Bjoern Gerold,Spiros Kotopoulis,Craig McDougall,David McGloin,Michiel Postema,Michiel Postema,Paul Prentice +6 more
TL;DR: High-speed photographic observations of laser-induced cavitation and laser-nucleated acoustic cavitation, at frame rates of 0.5×10(6) frames per second, from laser pulses of energy above and below the optical breakdown threshold, respectively are presented.
Reference BookDOI
Optical tweezers : methods and applications
TL;DR: The technical development of optical tweezers, along with their application in the biological and physical sciences, has progressed significantly since the demonstration of an optical trap for micron-sized particles based on a single, tightly focused laser beam was first reported more than twenty years ago as discussed by the authors.
Journal ArticleDOI
Extended mode-hop-free tuning by use of a dual-cavity, pump-enhanced optical parametric oscillator
TL;DR: Extended mode-hop-free tuning in a continuous-wave, pump-enhanced optical parametric oscillator (PE-OPO) is reported and it is found that increased idler absorption only slightly increases the oscillation threshold.
Journal ArticleDOI
Fiber based optical trapping of aerosols
D. Rudd,Carlos López-Mariscal,Michael D. Summers,Arianne Shahvisi,Julio C. Gutiérrez-Vega,David McGloin +5 more
TL;DR: It is shown that fiber based trapping offers a good candidate for studying optical binding in air and is able to hold suspended particles for extended periods of time and to precisely manipulate them over distances of several hundred microns.
Journal ArticleDOI
Resolving stable axial trapping points of nanowires in an optical tweezers using photoluminescence mapping.
Fan Wang,Wen Jun Toe,Woei Ming Lee,David McGloin,Qiang Gao,Hark Hoe Tan,Chennupati Jagadish,Peter J. Reece +7 more
TL;DR: Axially resolved microphotoluminescence mapping of semiconductor nanowires held in an optical tweezers reveals important new experimental information regarding equilibrium trapping points and trapping stability of high aspect ratio nanostructures.