New insights into mode behaviours in waveguides with impedance boundary conditions

Abstract

In this paper we investigate mode nonorthogonal properties and their effects on the sound power attenuation in a waveguide with impedance boundary conditions. By introducing two quantities: self-nonorthogonality Kp, which measures the nonorthogonality between left and right eigenfunctions of a mode, and mutual-nonorthogonality Sij, which measures the nonorthogonality between modes i and j, two opposite limiting cases are clearly identified in the boundary impedance Z plane: one is non-dissipation, i.e., acoustic rigid, pressure-release, and purely reactive impedance; the other is Cremer's optimum impedances which are exceptional points --- a subject has attracted much attention in recent years in different physical domains. Variations along an arbitrary path in the complex boundary impedance plane, Kp and Si,j varies between the two opposite extremes. It is found that Kp and Si,j play crucial roles in sound power attenuation.