Traditional broadband transmission method for measuring acoustic dispersion and attenuation requires the measurement of the thickness of the specimen, the transmission coecient at the water–specimen interface, and the Fourier spectra of two transmitted pulses. A new method has recently been developed that can determine both the thickness and dispersion of the specimen by utilizing the phase spectra of two additional pulses reflected back from the front and back surfaces of the specimen. In this paper, the method is further extended to the measurement of attenuation. If the density of the specimen is known, the frequency-dependent trans-mission coecient can be determined based on the measured phase velocity, and only the amplitude spectra of...
Acoustic backscatter systems offer a flexible technique to measure dispersion concentration and part...
The accuracy of the spectral difference method for measuring ultrasonic attenuation has been investi...
In ultrasonic characterization of liquids, gases, and solids, accurate estimation of frequency depen...
In the measurement of acoustic attenuation that obeys a power-law α = βfn, the traditional through-t...
The measurement of attenuation is performed by directly determining the attenuation operator (or the...
A well-established narrowband pulse-echo technique is employed and improved further to investigate t...
The development of a broadband sound velocimeter that allows the simultaneous measurement of sound s...
A general method for minimizing measurement artifacts arising from diffraction is proposed. The theo...
The influence of attenuation on pulsed ultrasonic signals has been under intense investigation espec...
The average temperature of the ocean can be determined by measuring the traveltimes of acoustic sign...
An ultrasound pulse transmission technique was studied as an alternative means of measuring the spec...
A fundamental assumption embraced in conventional use of the ultrasonic pulse-echo immersion techniq...
This paper demonstrates the potential of an in situ acoustic backscatter system (ABS) to measure par...
The present paper is an extension of our earlier series of studies carried out on technique of ultra...
The pulsed heating of the interface between a solid and a liquid leads to the excitation of acoustic...
Acoustic backscatter systems offer a flexible technique to measure dispersion concentration and part...
The accuracy of the spectral difference method for measuring ultrasonic attenuation has been investi...
In ultrasonic characterization of liquids, gases, and solids, accurate estimation of frequency depen...
In the measurement of acoustic attenuation that obeys a power-law α = βfn, the traditional through-t...
The measurement of attenuation is performed by directly determining the attenuation operator (or the...
A well-established narrowband pulse-echo technique is employed and improved further to investigate t...
The development of a broadband sound velocimeter that allows the simultaneous measurement of sound s...
A general method for minimizing measurement artifacts arising from diffraction is proposed. The theo...
The influence of attenuation on pulsed ultrasonic signals has been under intense investigation espec...
The average temperature of the ocean can be determined by measuring the traveltimes of acoustic sign...
An ultrasound pulse transmission technique was studied as an alternative means of measuring the spec...
A fundamental assumption embraced in conventional use of the ultrasonic pulse-echo immersion techniq...
This paper demonstrates the potential of an in situ acoustic backscatter system (ABS) to measure par...
The present paper is an extension of our earlier series of studies carried out on technique of ultra...
The pulsed heating of the interface between a solid and a liquid leads to the excitation of acoustic...
Acoustic backscatter systems offer a flexible technique to measure dispersion concentration and part...
The accuracy of the spectral difference method for measuring ultrasonic attenuation has been investi...
In ultrasonic characterization of liquids, gases, and solids, accurate estimation of frequency depen...