Title :
Liquid microvortex generated around a laser focal point in an intense high-frequency electric field
Author :
Mizuno, Akira ; Nishioka, Masateru ; Ohno, Yuji ; Dascalescu, Lucian-Doru
Author_Institution :
Toyohashi Univ. of Technol., Japan
Abstract :
A microvortex was discovered in liquid films when subjected to the combined action of a focused laser beam and a high-frequency electric field. The laser beam was perpendicular to both the surface of the liquid film and the direction of the electric field. The size of this opto-electrostatic microvortex (OEMV) in various liquids (water, ethanol, acetone, nitrobenzene) varied with the experimental conditions, but stayed in the 10-μm range. The velocity of the liquid flow in the vortex could be controlled by the intensity and frequency of the electric field (5.0×104 to 0.8×106 V/m, 2×104 to 1×106 Hz), by the laser power (0.01 to 2 W) and by the laser power density in the focal point. No microvortex was observed in benzene and chloroform. As an application of this phenomenon, single DNA molecules could be transported along the OEMV
Keywords :
electric field effects; electrohydrodynamics; laser beam applications; vortices; 2E4 to 1E6 Hz; DNA molecule transportation; acetone; benzene; chloroform; ethanol; frequency; intense high-frequency electric field; intensity; laser focal point; laser power density; liquid flow velocity; nitrobenzene; opto-electrostatic microvortex; water; DNA; Ethanol; Fluid flow; Frequency; Laser beams; Liquids; Optical control; Power lasers; Surface emitting lasers; Velocity control;
Journal_Title :
Industry Applications, IEEE Transactions on
