Microparticle manipulation using femtosecond photonic nanojet-assisted laser cavitation

We report the effect of laser cavitation in water initiated by femtosecond pulses confined into subwavelength volume of photonic nanojet of spherical microparticles. The effect of nanoscale optical breakdown was employed for controllable and nondestructive micromanipulation of silica microspheres. W...

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Veröffentlicht in:Optics letters 2018-04, Vol.43 (8), p.1858-1861
Hauptverfasser: Shakhov, Aleksander, Astafiev, Artyom, Nadtochenko, Viktor
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creator Shakhov, Aleksander
Astafiev, Artyom
Nadtochenko, Viktor
description We report the effect of laser cavitation in water initiated by femtosecond pulses confined into subwavelength volume of photonic nanojet of spherical microparticles. The effect of nanoscale optical breakdown was employed for controllable and nondestructive micromanipulation of silica microspheres. We combine this technique with optical trapping for cyclic particle movements and estimate a peak velocity and an acceleration acquired by microspheres propelled by nanojet cavitation. Our study provides a strategy for nondestructive optical micromanipulation, cavitation-assisted drug delivery, and laser energy transduction in microdevices.
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source Optica Publishing Group Journals
subjects Cavitation
Drug delivery systems
Femtosecond pulses
Lasers
Micromanipulation
Microparticles
Microspheres
Optical trapping
Photonics
Silicon dioxide
title Microparticle manipulation using femtosecond photonic nanojet-assisted laser cavitation
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