Title |
Ultrasonic needle hydrophone calibration in air by a parabolic off-axis mirror focused beam using three-transducer reciprocity / |
Authors |
Svilainis, Linas ; Chaziachmetovas, Andrius ; Kaskonas, Paulius ; Gomez Alvarez-Arenas, Tomas E |
DOI |
10.1016/j.ultras.2023.107025 |
Full Text |
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Is Part of |
Ultrasonics.. Amsterdam : Elsevier. 2023, vol. 133, art. no. 107025, p. 1-11.. ISSN 0041-624X. eISSN 1874-9968 |
Keywords [eng] |
acoustic metrology ; air-coupled ultrasound ; plane wave reciprocity ; probe characterization ; sensitivity calibration |
Abstract [eng] |
An acoustic field distribution investigation in air requires a small receiving sensor. Needle hydrophones seem to be an attractive solution, and it has previously been demonstrated that needle hydrophones designed for use in water can be used in air. The metrology problem is that an absolute sensitivity calibration is needed, because needle hydrophones are not characterized in air, especially for frequencies below 1 MHz, which is of interest for air-coupled ultrasound. Conventional, three-transducer/microphone reciprocity calibration requires measurements to be done in the far field. However, when transducer diameter is large and the frequency is high, the required measurement distance becomes very large: 3 m for a 20 mm source, transmitting at 1 MHz. Large propagation distance leads to high attenuation and nonlinear effects in air propagation, and distortion and losses accumulate. Small needle hydrophones have low sensitivity, so that high excitation amplitudes would be required, which can lead to transducer heating and increase nonlinearity effects. A derivative of the three-transducer reciprocity calibration method is proposed, where a large aperture transducer is focused onto a hydrophone, using hybrid of plane wave and spherical wave reciprocity. Use of a focused source minimizes the frequency-dependent diffraction effects, and the spherical wave approximation is valid at the focal distance, and low level excitation signals can be used. Focusing is accomplished using a parabolic off-axis mirror. Calibration is in transmission, which reduces the complexity of the electrical measurements. The corresponding equations have been derived for this setup. Calibration of the transducer and needle hydrophone absolute sensitivity is obtained. |
Published |
Amsterdam : Elsevier |
Type |
Journal article |
Language |
English |
Publication date |
2023 |
CC license |
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