Three-dimensional sound fields in the ocean

The performance of four di!erent con"gurations of three-dimensional acoustic energy density sensors are evaluated for two idealized one-dimensional sound "eld: a reactive single mode and a propagating plane wave. The 4 con"gurations of sensors are; two types of 4-microphone arrangements, a 6-microph

A numerical method is presented for calculating the sound pressure around a noise barrier of constant but arbitrary cross-section. To obtain the exact solution of this problem, the Helmholtz equation must be solved in the three-dimensional domain outside the barrier. It is shown in this article how

## Abstract In this article, we investigate the numerical approximation of the three‐dimensional ocean primitive equations (PEs), which was studied by Lions et al. We develop a new scheme for the PEs based on the fractional‐step method approximation, which is of second order (and can possibly be ma

Acoustic energy density has been shown previously to be an e!ective cost function for active control of noise in enclosed sound "elds. Here bias errors in the energy density measurements that occur in one-dimensional sound "elds when using the two-microphone technique to estimate the particle veloci

The essentially nonlinear chiral field in three dimensional space time non-renormalizable in the usual perturbation expansion is studied. We consider systematic 1 iNexpansion for this model. In the framework of the latter a phase transition takes place: above the critical point the theory is in the