Aeroacoustic catastrophes: upstream cusp beaming in Lilley's equation
Aeroacoustic catastrophes: upstream cusp beaming in Lilley's equation
The downstream propagation of high-frequency acoustic waves from a point source in a subsonic jet obeying Lilley's equation is well known to be organized around the so-called ‘cone of silence’, a fold catastrophe across which the amplitude may be modelled uniformly using Airy functions. Here we show that acoustic waves not only unexpectedly propagate upstream, but also are organized at constant distance from the point source around a cusp catastrophe with amplitude modelled locally by the Pearcey function. Furthermore, the cone of silence is revealed to be a cross-section of a swallowtail catastrophe. One consequence of these discoveries is that the peak acoustic field upstream is not only structurally stable but also at a similar level to the known downstream field. The fine structure of the upstream cusp is blurred out by distributions of symmetric acoustic sources, but peak upstream acoustic beaming persists when asymmetries are introduced, from either arrays of discrete point sources or perturbed continuum ring source distributions. These results may pose interesting questions for future novel jet-aircraft engine designs where asymmetric source distributions arise.
asymptotics, cone of silence, complex rays, caustics, Lilley's equation, subsonic aeroacoustics, aeroacoustics
Stone, Jonathan
1794a631-0f35-44c3-94dd-68766d0ac401
Self, Rodney
8b96166d-fc06-48e7-8c76-ebb3874b0ef7
Howls, Christopher
66d3f0f0-376c-4f7a-a206-093935e6c560
May 2017
Stone, Jonathan
1794a631-0f35-44c3-94dd-68766d0ac401
Self, Rodney
8b96166d-fc06-48e7-8c76-ebb3874b0ef7
Howls, Christopher
66d3f0f0-376c-4f7a-a206-093935e6c560
Stone, Jonathan, Self, Rodney and Howls, Christopher
(2017)
Aeroacoustic catastrophes: upstream cusp beaming in Lilley's equation.
Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, 473 (2201), [20160880].
(doi:10.1098/rspa.2016.0880).
Abstract
The downstream propagation of high-frequency acoustic waves from a point source in a subsonic jet obeying Lilley's equation is well known to be organized around the so-called ‘cone of silence’, a fold catastrophe across which the amplitude may be modelled uniformly using Airy functions. Here we show that acoustic waves not only unexpectedly propagate upstream, but also are organized at constant distance from the point source around a cusp catastrophe with amplitude modelled locally by the Pearcey function. Furthermore, the cone of silence is revealed to be a cross-section of a swallowtail catastrophe. One consequence of these discoveries is that the peak acoustic field upstream is not only structurally stable but also at a similar level to the known downstream field. The fine structure of the upstream cusp is blurred out by distributions of symmetric acoustic sources, but peak upstream acoustic beaming persists when asymmetries are introduced, from either arrays of discrete point sources or perturbed continuum ring source distributions. These results may pose interesting questions for future novel jet-aircraft engine designs where asymmetric source distributions arise.
Text
MainDocument RSPA-2016-0880-Final
- Accepted Manuscript
More information
Accepted/In Press date: 18 April 2017
e-pub ahead of print date: 17 May 2017
Published date: May 2017
Keywords:
asymptotics, cone of silence, complex rays, caustics, Lilley's equation, subsonic aeroacoustics, aeroacoustics
Organisations:
Acoustics Group, Applied Mathematics
Identifiers
Local EPrints ID: 411647
URI: http://eprints.soton.ac.uk/id/eprint/411647
ISSN: 1364-5021
PURE UUID: c33c7df3-69ad-45d6-af08-149fee8f4de2
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Date deposited: 21 Jun 2017 16:32
Last modified: 16 Mar 2024 05:16
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Author:
Jonathan Stone
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