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In this paper, experimental results are presented demonstrating that displacements on the order of 10 μm can be generated and detected in soft tissues in vivo using a single transducer on a modified diagnostic US scanner.
The study demonstrates the utility of this approach in using a single transducer to detect and characterize selective gaseous emboli from other particles using their nonlinear behavior.
However, from these simulations it is shown that defects have to be quite large before they can be detected using a single transducer position on the rail cross-section using train-induced vibration.
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The prototype uses a single transducer that operated as both an ultrasonic transmitter and a receiver and provides a beam directivity of ±7° at −6 dB point using a 160 Vpp drive pulse.
Using a single diagnostic transducer on a modified commercial ultrasound (US) scanner with conventional beam-forming architecture, repeated excitations with multiple look directions facilitate imaging shear-wave propagation.
The broad bandwidth available from the parametric source permitted detailed measurements to be made over a wide frequency range using a single transmitting transducer.
The potential for using a single diagnostic transducer to both generate radiation force and track the resulting displacements is investigated.
As one of the limitations of the current setup of the experiments, it should be noted that the PMI scanning area was smaller than the fluorescence imaging area due to relatively slow scanning time using a single element transducer.
Single-mode selection capability was achieved by using a comb configuration, and the triple transition interference (TTI) was suppressed by using a single phase unidirectional transducer (SPUDT).
The photoacoustic signals were detected using a single element ultrasound transducer (25 MHz center frequency, 25.4 mm focal depth) connected to ultrasound pulser/receiver.
This paper describes the development of an interferometric pressure transducer using a single etalon fringe as an intensity mode signal for a deflectable silicon diagram.
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