2014
DOI: 10.1063/1.4900716
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A feasibility study of in vivo applications of single beam acoustic tweezers

Abstract: Tools that are capable of manipulating micro-sized objects have been widely used in such fields as physics, chemistry, biology, and medicine. Several devices, including optical tweezers, atomic force microscope, micro-pipette aspirator, and standing surface wave type acoustic tweezers have been studied to satisfy this need. However, none of them has been demonstrated to be suitable for in vivo and clinical studies. Single beam acoustic tweezers (SBAT) is a technology that uses highly focused acoustic beam to t… Show more

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Cited by 47 publications
(30 citation statements)
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“…Obtaining a three-dimensional restoring force by tightly focusing an acoustic beam has proven to be challenging: Wu reported on a dual beam trap [23], whereas lateral manipulation with an ultrasonic beam was successfully implemented while the axial expelling force was canceled by a membrane [24,25]. Both concepts are similar to those reported in Ashkin's seminal work on particle acceleration [1].…”
supporting
confidence: 65%
“…Obtaining a three-dimensional restoring force by tightly focusing an acoustic beam has proven to be challenging: Wu reported on a dual beam trap [23], whereas lateral manipulation with an ultrasonic beam was successfully implemented while the axial expelling force was canceled by a membrane [24,25]. Both concepts are similar to those reported in Ashkin's seminal work on particle acceleration [1].…”
supporting
confidence: 65%
“…8 Also, the SBAT was shown to be capable of manipulating cell-sized microparticles inside of an excised blood vessel. 21 Although previous versions of SBAT’s capability of measuring cell deformability was previously demonstrated 9 , it was neither possible to obtain absolute values of elastic constants of cells including RBC nor possible to measure the interactive forces between cells due to the frequency of the SBAT. This is because the beam width of an ultrasonic transducer is inversely proportional to the center frequency.…”
Section: Discussionmentioning
confidence: 99%
“…Another approach for 2D trapping suggested by Lee 18,19 and Lam 20 is to operate outside of the Rayleigh regime. A focused beam generated by a single element can trap a particle in 2D in the Mie regime (i.e., particle diameter of the order of wavelength).…”
mentioning
confidence: 99%