Efficient counter-propagating wave acoustic micro-particle manipulation

A simple acoustic system consisting of a pair of parallel singe layered piezoelectric transducers submerged in a fluid used to form standing waves by a superposition of two counter-propagating waves is reported. The nodal positions of the standing wave are controlled by applying a variable phase difference to the transducers. This system was used to manipulate polystyrene micro-beads trapped at the nodal positions of the standing wave. The demonstrated good manipulation capability of the system is based on a lowering of the reflection coefficient in a narrow frequency band near the through-thickness resonance of the transducer plates.

[1]  Qifa Zhou,et al.  Focused high frequency needle transducer for ultrasonic imaging and trapping. , 2012, Applied physics letters.

[2]  Paul D. Wilcox,et al.  Manipulation of particles in two dimensions using phase controllable ultrasonic standing waves , 2012, Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences.

[3]  B W Drinkwater,et al.  Manipulation of microparticles using phase-controllable ultrasonic standing waves. , 2010, The Journal of the Acoustical Society of America.

[4]  M. Hoyos,et al.  Acoustic programming in step-split-flow lateral-transport thin fractionation. , 2010, Analytical chemistry.

[5]  Martyn Hill,et al.  Mode-switching: a new technique for electronically varying the agglomeration position in an acoustic particle manipulator. , 2010, Ultrasonics.

[6]  John E. Cunningham,et al.  Formation and manipulation of two-dimensional arrays of micron-scale particles in microfluidic systems by surface acoustic waves , 2009 .

[7]  H M Hertz,et al.  Proliferation and viability of adherent cells manipulated by standing-wave ultrasound in a microfluidic chip. , 2007, Ultrasound in medicine & biology.

[8]  Martyn Hill,et al.  The selection of layer thicknesses to control acoustic radiation force profiles in layered resonators. , 2003, The Journal of the Acoustical Society of America.

[9]  Toshio Fukuda,et al.  Control of a Standing Wave Field Using a Line-Focused Transducer for Two-Dimensional Manipulation of Particles , 1998 .

[10]  M. Saito,et al.  Ultrasonic trapping of paramecia and estimation of their locomotive force , 1997 .

[11]  Donald L. Feke,et al.  Methodology for fractionating suspended particles using ultrasonic standing wave and divided flow fields , 1995 .

[12]  A. Ashkin,et al.  Optical trapping and manipulation of single cells using infrared laser beams , 1987, Nature.

[13]  R. Krimholtz,et al.  Equivalent Circuits for Transducers Having Arbitrary Even- Or Odd-Symmetry Piezoelectric Excitation , 1971, IEEE Transactions on Sonics and Ultrasonics.

[14]  Louis Vessot King,et al.  On the Acoustic Radiation Pressure on Spheres , 1934 .