Excitation of a circular-aperture transducer with an echo pulse reflected from a spherical surface
- Authors: Perov D.V.1, Nemytova O.V.1, Rinkevich A.B.1
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Affiliations:
- Mikheev Institute of Physics of Metals, Ural Branch
- Issue: Vol 52, No 12 (2016)
- Pages: 673-684
- Section: Acoustic Methods
- URL: https://journals.rcsi.science/1061-8309/article/view/181227
- DOI: https://doi.org/10.1134/S1061830916120135
- ID: 181227
Cite item
Abstract
A theoretical model is suggested that allows one to explain peculiarities of the frequency response of echo signals at the output of a receiving transducer versus geometrical parameters of reflecting surfaces. It is shown that the way the instantaneous frequency of signals at the output of the receiving transducer changes depends on the curvature radius of reflected wavefront at the receivingtransducer aperture. It has been established that the frequency modulation of the pulsed echo signal is due to nonuniformity of the distribution of the phase of acoustic signal at the receiving-transducer aperture; this can be characterized by the radii of Fresnel zones that correspond to the reflected wavefront in relationship to the aperture radius of the circular transducer. Data on the frequency modulation of pulsed echo signals expressed in terms of dimensionless parameters (normalized frequency deviations) that were obtained experimentally and calculated by the suggested theoretical model demonstrate fair qualitative and quantitative agreement.
About the authors
D. V. Perov
Mikheev Institute of Physics of Metals, Ural Branch
Author for correspondence.
Email: peroff@imp.uran.ru
Russian Federation, Yekaterinburg, 620990
O. V. Nemytova
Mikheev Institute of Physics of Metals, Ural Branch
Email: peroff@imp.uran.ru
Russian Federation, Yekaterinburg, 620990
A. B. Rinkevich
Mikheev Institute of Physics of Metals, Ural Branch
Email: peroff@imp.uran.ru
Russian Federation, Yekaterinburg, 620990