On-Demand Bulk Nanobubble Generation through Pulsed Laser Illumination
Juan Manuel Rosselló, Claus‐Dieter Ohl
Abstract
We demonstrate the temporally and spatially controlled nucleation of bulk nanobubbles in water through pulsed laser irradiation with a collimated beam. Transient bubbles appear within the light exposed region once a tension wave passes through. The correlation between illumination and cavitation nucleation provides evidence that gaseous nanobubbles are nucleated in the liquid by a laser pulse with an intensity above 58 MW/cm^{2}. We estimate the radius of the nanobubbles through microscopic high-speed imaging and by solving the diffusion equation to be below 420 nm for ∼80% of the bubble population. This technique may provide a novel approach to test theories on existence of stable bulk nanobubbles.
Topics & Concepts
NucleationBubbleCavitationCollimated lightRADIUSLaserMaterials sciencePulsed laserSurface tensionOpticsPopulationDiffusionIrradiationMechanicsPhysicsThermodynamicsNuclear physicsSociologyDemographyComputer securityComputer scienceMinerals Flotation and Separation TechniquesLaser-induced spectroscopy and plasmaMetallurgical Processes and Thermodynamics