source distribution in supersonic jets,” J. Sound Vib. 291, 192-
201 (2006).
21 J. B. Freund, “Noise sources in a low-Reynolds-number turbu-
lent jet at Mach 0.9,” J. Fluid Mech. 438, 277–305 (2001).
22 H. Vold, P. Shah, P. J. Morris, Y. Du, and D. Papamoschou, “Axisymmetry and azimuthal modes in jet noise,” AIAA paper
2012-2214 (2012).
23 P. Jordan and T. Colonius, “Wave packets and turbulent jet
noise,” Annu. Rev. Fluid Mech. 45, 173-195 (2013).
24 J. E. Ffowcs Williams, J. Simson, and V. J. Virchis, “ ‘Crackle’: An annoying component of jet noise,” J. Fluid Mech. 71, 251–271
(1975).
25 A. A. Atchley, “Not your ordinary sound experience: A nonlin-
ear-acoustics primer,” Acoust. Today 1, 19-24 (2005).
26 Nonlinear Acoustics: Theory and Applications, edited by M. F. Hamilton and D. T. Blackstock (Academic Press, San Diego, CA,
1998).
27 K. L. Gee, V. W. Sparrow, M.M. James, J. M. Downing, C. M.
Hobbs, T. B. Gabrielson, and A. A. Atchley, “Measurement and prediction of noise propagation from a high-power jet aircraft,” AIAA J. 45, 3003–3006 (2007).
28 K. L. Gee, V. W. Sparrow, M.M. James, J. M. Downing, C. M. Hobbs, T. B. Gabrielson, and A. A. Atchley, “The role of nonlin- ear effects in the propagation of noise from high-power jet air- craft,” J. Acoust. Soc. Am. 123, 4082–4093 (2008).
29 K. L. Gee, J. M. Downing, M. M. James, R. C. McKinley, R. L. McKinley, T. B. Neilsen, and A. T. Wall, “Nonlinear evolution of noise from a military jet aircraft during ground run-up,” AIAA Paper No. 2012-2258 (2012).
30 B. P. Petitjean, K. Viswanathan, and D. K. McLaughlin, “Acoustic pressure waveforms measured in high speed jet noise experienc- ing nonlinear propagation,” Int. J. Aeroacoust. 5, 193–215 (2006).
31 K. L. Gee, A. A. Atchley, L. E. Falco, M. R. Shepherd, L. S. Ukeiley, B. J. Jansen, and J. M. Seiner, “Bicoherence analysis of model-scale jet noise,” J. Acoust. Soc. Am. 128, EL211–EL216 (2010).
32 K. L. Gee, S. H. Swift, V. W. Sparrow, K. J. Plotkin, and J. M. Downing,” “On the potential limitations of conventional sound metrics in quantifying perception of nonlinearly propagated noise,” J. Acoust. Soc. Am. 121, EL1-EL7 (2007).
33 S. H. Swift and K. L. Gee, “Examining the use of a time-varying loudness algorithm for quantifying characteristics of nonlinear- ly propagated noise (L),” J. Acoust. Soc. Am. 129, 2753-2756 (2011).
34 K. L. Gee, V. W. Sparrow, A. A. Atchley, and T. B. Gabrielson, “On the perception of crackle in high-amplitude jet noise,” AIAA J. 45, 593-598 (2007).
35 M.M. James and K.L. Gee, “Aircraft Jet Plume Source Noise Mesurement System”, Sound Vib. 44, 14–17 (2010).
36 K. L. Gee, T. B. Neilsen, J. M. Downing, M. M. James, R. L. McKinley, R. C. McKinley, and A. T. Wall, “Near-field shock for- mation in noise propagation from a high-power jet aircraft,” J. Acoust. Soc. Am. 133, EL88–EL93 (2013).
37 A. T. Wall, K. L. Gee, M. M. James, K. A. Bradley, S. A. McInerny, and T. B. Neilsen, “Near-field noise measurements of a high-per- formance military jet aircraft,” Noise Control Eng. J. 60, 421-434 (2012).
38 S. C. Reynolds, J. S. Myres, T. B. Neilsen, A. T. Wall, K. L. Gee, and M. M. James, “Geometric near-field characteristics of super- sonic jets: Full and laboratory scales,” Proc. Internoise 2012, paper in12_1194.
39 T. B. Gabrielson, T. M. Marston, and A. A. Atchley, “Nonlinear
propagation modeling: Guidelines for supporting measure-
ments,” Proc. Noise-Con 114, 275-285 (2005).
40 K. L. Gee, T. B. Neilsen, M. B. Muhlestein, A. T. Wall, J. M.
Downing, M. M. James, and R. L. McKinley “On the evolution of crackle in jet noise from high-performance engines,” AIAA paper 2013-2190 (2013).
41 T. B. Neilsen, K. L. Gee, A. T. Wall, and M. M. James, “Similarity spectra analysis of high-performance jet aircraft noise,” J. Acoust. Soc. Am. 133, 2116 – 2125 (2013).
42 T. B. Neilsen, K. L. Gee, A. T. Wall, M. M. James, and A. A. Atchley, “Comparison of supersonic full-scale and laboratory- scale jet data and the similarity spectra for turbulent mixing noise,” Proc. Mtgs. Acoust. 19, 040071 (2013).
43 R. H. Schlinker, S. A. Liljenberg, D. R. Polak, K. A. Post, C. T. Chipman, and A. M. Stern, “Supersonic jet noise source charac- teristics & propagation: engine and model scale,” AIAA Paper No. 2007-3623 (2007).
44 T. B. Neilsen, K. L. Gee, and M. M. James, “Spectral characteri- zation in the near and mid-field of military jet aircraft noise, AIAA paper 2013-2191 (2013).
45 K. Viswanathan, “Investigation of the sources of jet noise,” AIAA Paper 2007-3601, (2007).
46 T. Suzuki and T. Colonius, “Instability waves in a subsonic round jet detected using a near-field phased microphone array,” J. Fluid Mech. 565, 197-226 (2006).
47 R. Reba, S. Narayanan and T. Colonius, “Wave-packet models for large-scale mixing noise,” Int. J. Aeroacoust. 9, 533-558 (2010).
48 R. H. Schlinker, R. A. Reba, J. C. Simonich, T. Colonius, K. Gudmundsson and F. Ladeinde, “Towards prediction and con- trol of large scale turbulent structure supersonic jet noise,” Proc.
  Lightweight, Attractive Enclosures
AIL Sound Walls are engineered to be the choice for today’s rooftop and on-ground enclosures. Made from maintenance-free PVC, our Silent Protector® (Absorptive) and Tuf-Barrier® (Reflective) enclosures will save you time and money.
! Easy-to-install
! Durable and maintenance-free
Professional education credit courses offered
1-866-231-7867
! Lightweight, reduced loads
! Supports LEED points for green building
ailsoundwalls.com
  Jet Noise from Military Aircraft 19