Harmonic propagation of finite amplitude sound beams: experimental determination of the nonlinearity parameter B/A

We propose a method to determine the nonlinearity parameter B/A of a liquid from the spatial evolution of harmonic components. We describe an analytic al model, in the parabolic and quasi-linear approximations, that predicts t he continuous finite amplitude sound beam propagation radiated by a plane p iston source. This model takes into consideration attenuation, diffraction and nonlinear effects. The fundamental and second harmonic ultrasonic field s are expressed as the superposition of Gaussian beams. Axial propagation c urves are then compared with those obtained by direct numerical solution of the transformed beam equation using the finite difference method, and with experimental results. Accurate measurements of pressure levels for the non linearly generated harmonics in water are performed along and across the pr opagation axis for different pressure values delivered at the piston surfac e. Experimental results, for water and ethanol, are in agreement with those of our model, which allows us to obtain the expected value of the nonlinea rity parameter B/A. (C) 2000 Elsevier Science B.V. All rights reserved.