Tim Colonius
Publications

Refereed Journals

1. K. Chen, T. Colonius, and K. Taira.  A leading-edge vortex study for power-law velocities.  Submitted to Physics of Fluids.  2009.
2. K. Taira, C.W. Rowley, T. Colonius, and D.R. Williams.  Lift enhancement for low-aspect-ratio wings with periodic excitation.  Submitted to AIAA Journal.  2009.
3. D.R. Williams, G. Tadmor, T. Colonius, W. Kerstens, V. Quach and S. Buntain.  The Lift Response of a Stalled Wing to Pulsatile Disturbances.  Submitted to AIAA Journal.  2009.
4. W.F.J. Olsman and T. Colonius.  Numerical simulation of flow over an airfoil with a cavity.  Submitted to AIAA Journal.  2009.
5. J. A. Franck and T. Colonius.  Compressible large-eddy simulation of separation control on a wall-mounted hump.  Submitted to AIAA Journal.  2009.
6. E. Johnsen and T. Colonius.  Numerical simulations of non-spherical bubble collapse.  Journal of Fluid Mechanics.  Journal of Fluid Mechanics, 629:231-262.  2009.[.pdf]
7. K. Taira and T. Colonius. Three-Dimensional Flows around Low-Aspect-Ratio Flat-Plate Wings at Low Reynolds Numbers.  Journal of Fluid Mechanics. 623:187-207.  2009. [.pdf]
8. D. Appelö and T. Colonius.  A high-order super-grid-scale absorbing layer and its application to linear hyperbolic systems.  Journal of Computational Physics.  228:4200-4217.  2009.[.pdf]
9. H. Ran and T. Colonius. Numerical simulation of the sound radiated from a turbulent vortex ring, International Journal of Aeroacoustics.  8(4):317-336.  2009.[.pdf]
10. J.B. Freund and T. Colonius. Turbulence and sound-field POD analysis of a turbulent  jet, International Journal of Aeroacoustics.  8(4):337-354.  2009.[.pdf]
11. K. Taira and T. Colonius.  On the Effect of Tip Vortices in Low-Reynolds-Number Post-Stall Flow Control, AIAA Journal.  47(3):749-756.  2009. [.pdf]
12. E. Johnsen and T. Colonius.  Shock-induced collapse of a gas bubble in shockwave lithotripsy.  Journal of the Acoustical Society of America. 124(4):2011-2020.  2008. [.pdf]
13. T. Colonius and K. Taira.  A fast immersed boundary method using a nullspace approach and multi-domain far-field boundary conditions.  Computer Methods in Applied Mechanics and Engineering,   197(25-28): 2131-2146.  2008.[.pdf]
14. T. Colonius, R. Hagmeijer, K. Ando, and C.E. Brennen.  Statistical Equilibrium of Bubble Oscillations in Dilute Bubbly Flows.  Physics of Fluids, 20(4).  Art. No. 040902.  2008.[.pdf]
15. G. Bres and T. Colonius.  Three-dimensional instabilities in compressible flow over open cavities.  Journal of Fluid Mechanics, 599:309-339.  2008.[.pdf]
16. A.T. Preston, T. Colonius, and C.E. Brennen.  A Reduced-Order Model of Diffusive Effects on the Dynamics of Bubbles.  Physics of Fluids, 19(12).  Art No. 123302.  2007.[.pdf]
17. J.B. Freund, T. Colonius, and A.P. Evan.  A cumulative shear mechanism for tissue damage initiation in shock-wave lithotripsy.  Ultrasound in medicine and biology, 33(9):1495-1503, 2007.[.pdf]
18. K. Taira and T. Colonius.  The immersed boundary method:  a projection approach.  Journal of Computational Physics, 225:2118-2137, 2007.[.pdf]
19. E. Johnsen and T. Colonius. Implementation of WENO schemes in compressible multicomponent flow problems. Journal of Computational Physics, 219(2):715–732,2006.[.pdf]
20. T. Suzuki and T. Colonius. Instability waves in a subsonic round jet detected using a near-field phased microphone array. Journal of Fluid Mechanics, 565:197–226, 2006.[.pdf]
21. C.W. Rowley, D.R. Williams, T. Colonius, R.M. Murray, and D.G. MacMynowski. Linear models for control of cavity flow oscillations. Journal of Fluid Mechanics, 547:317–330, 2006.[.pdf]
22. T. Suzuki, T. Colonius, and S. Pirozzoli. Vortex shedding in a two-dimensional diffuser: theory and simulation of separation control by periodic mass injection. Journal of Fluid Mechanics, 520:187–213, 2004.[.pdf]
23. C.W. Rowley, T. Colonius, and R.M. Murray. Model reduction for compressible flows using POD and Galerkin projection. Physica D, 189(1-2):115–129, 2004.[.pdf]
24. T. Colonius and S.K. Lele. Computational Aeroacoustics: Progress in Nonlinear Problems of Sound Generation. Progress in Aerospace Sciences, 40(6):345–416, 2004.[.pdf]
25. T. Colonius. Modeling artificial boundary conditions for compressible flow. Annual Review of Fluid Mechanics, 36:315–345, 2004.[.pdf]
26. T. Suzuki and T. Colonius. Inverse-imaging method for detection of a vortex in a channel. AIAA Journal, 41(9):1743–1751, 2003.[.pdf]
27. Y.A. Pishchalnikov, O.A. Sapozhnikov, M.R. Bailey, J.C. Williams, R.O. Cleveland, T. Colonius, L.A. Crum, A.P. Evan, and J.A. McAteer. Cavitation bubble cluster activity in the breakage of kidney stones by lithotripter shockwaves. Journal of Endourology, 17(7):435–446, 2003.[.pdf]
28. C.W. Rowley, T. Colonius, and A.J. Basu. On self-sustained oscillations in two-dimensional compressible flow over rectangular cavities. Journal of Fluid Mechanics, 455:315–346, 2002.[.pdf]
29. A.T. Preston, T. Colonius, and C.E. Brennen. A numerical investigation of unsteady bubbly cavitating nozzle flows. Physics of Fluids, 14(1):300–311, 2002.[.pdf]
30. Y.A. Pishchalnikov, O.A. Sapozhnikov, M.R. Bailey, J.C. Williams, R.O. Cleveland, T. Colonius, L.A. Crum, A.P. Evan, and J.A. McAteer. Cavitation damage to kidney stones in SWL involves the action of bubble clusters: New observations using ultra-high speed imaging in vitro. Journal of Urology, 167(4):261–262, 2002.[.pdf]
31. K. Mohseni, T. Colonius, and J.B. Freund. An evaluation of linear instability waves as sources of sound in a supersonic turbulent jet. Physics of Fluids, 14(10):3593–3600, 2002.[.pdf]
32. J.D. Eldredge, A. Leonard, and T. Colonius. A general deterministic treatment of derivatives in particle methods. Journal of Computational Physics, 180(2):686–709, 2002.[.pdf]
33. J.D. Eldredge, T. Colonius, and A. Leonard. A vortex particle method for two-dimensional compressible flow. Journal of Computational Physics, 179(2):371–399, 2002.[.pdf]
34. J.D. Eldredge, T. Colonius, and A. Leonard. A dilating vortex particle method for compressible flow. Journal Of Turbulence, 3:art. no.–036, 2002.[.pdf]
35. T. Colonius and H.Y. Ran. A super-grid-scale model for simulating compressible flow on unbounded domains. Journal of Computational Physics, 182(1):191–212, 2002.[.pdf]
36. K. Mohseni, H.Y. Ran, and T. Colonius. Numerical experiments on vortex ring formation. Journal of Fluid Mechanics, 430:267–282, 2001.[.pdf]
37. J. Zhou, F. Rusnak, T. Colonius, and G.M. Hathaway. Quasi-linear gradients for capillary liquid chromatography with mass and tandem mass spectrometry. Rapid Communications in Mass Spectrometry, 14(6):432–438, 2000.[.pdf]
38. C.W. Rowley and T. Colonius. Discretely nonreflecting boundary conditions for linear hyperbolic systems.  Journal of Computational Physics, 157(2):500–538, 2000.[.pdf]
39. K. Mohseni and T. Colonius. Numerical treatment of polar coordinate singularities. Journal of Computational Physics, 157(2):787–795, 2000.[.pdf]
40. T. Colonius and J.B. Freund. Application of Lighthill’s equation to Mach 1.92 turbulent jet. AIAA Journal, 38(2):368–370, 2000.[.pdf]
41. T. Colonius, F. d’Auria, and C.E. Brennen. Acoustic saturation in bubbly cavitating flow adjacent to an oscillating wall. Physics of Fluids, 12(11):2752–2761, 2000.[.pdf]
42. R. Kedia, M.L. Hunt, and T. Colonius. Transition of chaotic flow in a radially heated Taylor-Couette system. Journal of Heat Transfer–Transactions of the ASME, 121(3):574–582, 1999.[.pdf]
43. R. Kedia, M.L. Hunt, and T. Colonius. Numerical simulations of heat transfer in Taylor- Couette flow.  Journal of Heat Transfer–Transactions of the ASME, 120(1):65–71, 1998.[.pdf]
44. T. Colonius, S.K. Lele, and P. Moin. Sound generation in a mixing layer. Journal of Fluid Mechanics, 330:375–409, 1997.[.pdf]
45. T. Colonius. Numerically nonreflecting boundary and interface conditions for compressible flow and aeroacoustic computations. AIAA Journal, 35(7):1126–1133, 1997.[.pdf]
46. T. Colonius, S.K. Lele, and P. Moin. The Scattering of Sound Waves by a Vortex–Numerical Simulations and Analytical Solutions. Journal of Fluid Mechanics, 260:271–298, 1994.[.pdf]
47. T. Colonius, S.K. Lele, and P. Moin. Boundary Conditions for Direct Computation of Aerodynamic Sound Generation. AIAA Journal, 31(9):1574–1582, 1993.[.pdf]
48. T. Colonius, S.K. Lele, and P. Moin. The Free Compressible Viscous Vortex. Journal of Fluid Mechanics, 230:45–73, 1991. [.pdf]

Conference Proceedings

1. J. Krimmel and T. Colonius.  Numerical simulation of shock wave generation and focusing in shockwave lithotripsy.  J. Acoust. Soc Am. 123(5), Pt. 2, p 3367.  May 2008.
2. E. Johnsen and T. Colonius.  Damage potential of single-bubble collapse in shockwave lithotripsy.  J. Acoust. Soc. Am. 123(5), Pt 2. p. 3368.  May 2008.
3. G. Tadmor, D. Bissex, B. Noack, M. Morzynski, T. Colonius, and K. Taira.  Temporal-Harmonic Specific POD Mode Extraction.  AIAA Paper 2008-4190.
4. G. Tadmor, D. Bissex, B. Noack, M. Morzynski, T. Colonius, and K. Taira.  Fast Approximated POD for a Flat Plate Benchmark with a Time Varying Angle of Attack.  AIAA Paper 2008-4191.
5. G. Bres and T. Colonius.  Interaction of acoustic disturbances with micro-cavities for ultrasonic absorptive coatings.  AIAA Paper 2008-3903.
6. G. Bres and T. Colonius.  Stability of temporally-evolving supersonic boundary layers over micro-cavities for ultrasonic absorptive coatings.  AIAA Paper 2008-4337.
7. R. Schlinker, J. Simonich, R. Reba, T. Colonius, and F. Ladeinde.  Decomposition of High Speed Jet Noise:  Source Characteristics and Propagation Effects.  AIAA Paper 2008-2890.
8. C. Rowley, S. Ahuja, K. Taira, and T. Colonius.  Closed-loop control of leading-edge vorticity on a 3D Wing:  Simulations and Low-Dimensional Models.  AIAA Paper 2008-3981.
9. D. Williams, J. Collins, G. Tadmor, and T. Colonius.  Control of a Semi-Circular Planform Wing in a Gusting Unsteady Freestream Flow:  I.  Experimental issues.  AIAA Paper 2008-3976.
10. G. Tadmor, D. Williams, J. Collins, and T. Colonius.  Control of a Semi-Circular Planform Wing in a Gusting Unsteady Freestream Flow:  II.  Modeling and feedback design.  AIAA Paper 2008-3977.
11. M. Munson, W. Dickson, T. Colonius, and M. Gharib.  A New Low Reynolds Number Facility for Active Flow Control Applications. AIAA Paper 2008-694
12. W. Joe, K. Taira, T. Colonius and D. MacMynowski, and G. Tadmor.  Closed-Loop Control of Vortex Shedding on a Two-Dimensional Flat-Plate Airfoil at a Low Reynolds Number.  AIAA Paper 2008-634
13. J. Franck and T. Colonius.  Large-Eddy Simulation of Separation Control for Compressible Flow Over a Wall-Mounted Hump.  AIAA Paper 2008-555
14. D. Williams, J. Collins, and C. Jankhot, T. Colonius, and G. Tadmor. Control of Flow Structure on a Semi-Circular Planform Wing.  AIAA Paper 2008-597
15. S. Brunton, C. Rowley, K. Taira, T. Colonius, J. Collins, and D. Williams. Unsteady Aerodynamic Forces on Small-Scale Wings: Experiments, Simulations, and Models.  AIAA Paper 2008-520
16. E. Johnsen, T. Colonius, W. Kreider, and M. R. Bailey, Axisymmetric collapse of an air bubble subjected to a lithotripter pulse, International Mechanical Engineering Congress and Exposition, American Society of Mechanical Engineers, Seattle, USA, 2007.
17. K. Gudmundsson and T. Colonius.  Spatial stability analysis of chevron jet profiles.  AIAA Paper 2007-3599, 2007.
18. G.A. Bres and T. Colonius.  Direct numerical simulations of three-dimensional cavity flows.  AIAA Paper 2007-3405, 2007.
19. G.A. Bres and T. Colonius.  Three-dimensional linear stability analysis of cavity flows.  AIAA Paper 2007-1126, 2007.
20. S. Ahuja, C. Rowley, I. Kevrekidis, M. Wei, T. Colonius and G. Tadmor. Low-Dimensional Models for Control of Leading-Edge Vortices: Equilibria and Linearized Models.  AIA Paper 2007-709, 2007.
21. K. Taira, W. Dickson, T. Colonius, and C. Rowley.  Unsteadiness in flow over a flat plate at angle-of-attack at low Reynolds numbers.  AIAA Paper 2007-710, 2007.
22. D. Williams, S. Doshi, J. Collins, and T. Colonius.  Control of spanwise distribution of circulation on NACA 0012 and Flat Plate Wings.  AIAA Paper 2007-1121
23. E. Johnsen and T. Colonius, Numerical simulation of the collapse of a bubble subjected to a lithotripter pulse, 1st Annual International Urolithiasis Research Symposium, International Kidney Stone Institute, Indianapolis, 2006.
24. E. Johnsen and T. Colonius.  Numerical study of the collapse of a bubble subjected to a lithotripter pulse.  J. Acoust. Soc. Am. 120(5): 3065, 2006.
25. E. Johnsen and T. Colonius.  Compressible multicomponent flow caculations and shock-bubble interaction.  In Sixth International Symposium on Cavitation (CAV2006), Wageningen, The Netherlands, 2006. 
26. K. Gudmundsson and T. Colonius.  Linear stability analysis of chevron jet profiles.  ASME Fluids Engineering Division Summer Meeting, number FEDSM2006-98485, 2006.
27. T. Suzuki and T. Colonius.  Relation Between Instability Waves and Low-Frequency Jet Noise Investigated with Phased-Microphone Arrays.  AIAA Paper 2006-622, 2006.
28. E. Johnsen and T. Colonius. Compressible multicomponent flow calculations and shock-bubble interaction.  In Sixth International Symposium on Cavitation, Wageningen, The Netherlands, 2006.
29. R. Reba, S. Narayanan, T. Colonius, and T. Suzuki. Modeling Jet Noise from Organized Structures Using Near-Field Hydrodynamic Pressure. AIAA Paper 2005-3093, 2005.
30. V. Theofilis and T. Colonius. Three-Dimensional Instabilities of Compressible Flow over Open Cavities: Direct Solution of hte BiGlobal Eigenvalue Problem. AIAA Paper 2004-2544, 2004.
31. T. Suzuki, T. Colonius, and D.G. MacMartin. Closed-loop Control of Vortex Shedding in a Separated Diffuser Using an Inverse Method. AIAA Paper 2004-0577, 2004.
32. T. Suzuki and T. Colonius. Identification of Jet Instability Waves and Design of a Microphone Array.  AIAA Paper 2004-2960, 2004.
33. H. Ran and T. Colonius. Numerical Simulation of Sound Radiated from a Turbulent Vortex Ring. AIAA Paper 2004-2918, 2004.
34. V. Theofilis and Colonius. An Algorithm for the Recovery of 2- and 3D BiGlobal Instabilities of Compressible Flow Over 2D Open Cavities. AIAA Paper 2003-4143, 2003.
35. M. Tanguay and T. Colonius. Progress in modeling and simulation of shock wave lithotripsy (SWL).  In Fifth International Symposium on Cavitation, number Cav03-OS-2-1-010, Osaka, Japan, 2003.
36. T. Suzuki, T. Colonius, and D.G. MacMartin. Inverse Technique for Vortex Imaging and Its Application to Feedback Flow Control. AIAA Paper 2003-4260, 2003.
37. T. Suzuki and T. Colonius. Large-scale unsteadiness in a two-dimensional diffuser: numerical study toward active separation control. AIAA Paper 2003-1138, 2003.
38. R. Reba, S. Narayanan, T. Colonius, and M.J. Dunlop. A Study of the Role of Organized Structures in Jet Noise Generation. AIAA Paper 2003-3093, 2003.
39. A.T. Preston, T. Colonius, and C.E. Brennen. Reduced order modeling of diffusive effects on the dynamics of bubbles. In Fifth International Symposium on Cavitation, number Cav03-GS-2-013, Osaka, Japan, 2003.
40. Y.A. Pishchalnikov, J.A. McAteer, A.P. Evan, O.A. Sapozhnikov, R.O. Cleveland, T. Colonius, M.R. Bailey, and L.A. Crum. Dynamics of concerted bubble cluster collapse in shockwave lithotripsy. J. Acoust. Soc. Am., 114:2386, 2003.
41. T. Colonius and M. Tanguay. Cloud cavitation effects in shockwave lithotripsy. J. Acoust. Soc. Am., 114:2452, 2003.
42. F. Bretolotti and T. Colonius. On the noise generated by shear-layer instabilities in turbulent jets.  AIAA Paper 2003-1062, 2003.
43. M.R. Bailey, L.A. Crum, O.A. Sapozhnikov, A.P. Evan, J.A. McAteer, T. Colonius, and R.O. Cleveland. Cavitation in shockwave lithotripsy. J. Acoust. Soc. Am., 114:2417, 2003.
44. D.R. Williams, C.W. Rowley, D. Fabris, T. Colonius, and R.M. Murray. Model-based control of cavity oscillations, Part I: Experiments. AIAA Paper 2002-0971, 2002.
45. V. Thoefilis, S.J. Sherwin, and T. Colonius. A unifying perspective of linear flow instabilities. In First Symposium on Global Flow Instability and Control. In First Symposium on Global Flow Instability and Control, Crete, Greece, 2002.
46. M. Tanguay and T. Colonius. Numerical investigation of bubble cloud dynamics in shock wave lithotripsy.  In 2002 ASME Fluids Engineering Division Summer Meeting, number FEDSM2002-31010. ASME, 2002.
47. C.W. Rowley, D.R. Williams, T. Colonius, R.M. Murray, D.G. MacMartin, and D. Fabris. Model-based control of cavity oscillations, Part II: System identification and analysis. AIAA Paper 2002-0972, 2002.
48. A.T. Preston, T. Colonius, and C.E. Brennen. A reduced-order model of heat transfer effects on the dynamics of bubbles. In 2002 ASME Fluids Engineering Division Summer Meeting, number FEDSM2002-31026, 2002.
49. Y.A. Pishchalnikov, O.A. Sapozhnikov, J.C.,Jr. Williams, A.P Evan, J.A. McAteer, R.O. Cleveland, T. Colonius, M.R. Bailey, and L.A. Crum. Cavitation bubble cluster activity in the breakage of stones by shockwave lithotripsy. J. Acoust. Soc. Am., 111:2461, 2002.
50. K. Gudmundsson and T. Colonius. Linear stability analysis of chevron jet profiles. In 2006 ASME Joint U.S.-European Fluids Engineering Division Summer Meeting, number FEDSM2006-98485, 2002.
51. J.B. Freund and T. Colonius. POD analysis of sound generation by a turbulent jet. AIAA Paper 2002-0072, 2002.
52. T. Colonius and M. Tanguay. Numerical simulation of shock and bubble dynamics in shockwave lithotripsy. J. Acoust. Soc. Am., 112:2290, 2002.
53. T. Colonius, C.W. Rowley, J.B. Freund, and R.M. Murray. On the choice of norm for modeling compressible flow dynamics at reduced-order using the POD. In IEEE 2002 Conference on Decision and Control, number INV1201, 2002.
54. T. Colonius and J.B. Freund. Reconstruction of large-scale structures and acoustic radiation from a turbulent M=0.9 jet using proper orthogonal decomposition. In I.P Castro, P.E. Hancock, and T.G. Thomas, editors, Advances in Turbulence IX. CIMNE., 2002.
55. M. Tanguay and T. Colonius. Numerical Simulation of Bubbly Cavitating Flow in Shock Wave Lithotripsy. In Fourth International Symposium on Cavitation, Pasadena, CA, 2001.
56. C.W. Rowley, T. Colonius, and R.M. Murray. Dynamical models for control of cavity oscillations. AIAA Paper 2001-2126, 2001.
57. A.T. Preston, T. Colonius, and C.E. Brennen. Efficient computation of heat and mass transfer effects in the continuum model for bubbly cavitating flows. In Fourth International Symposium on Cavitation, Pasadena, CA, 2001.
58. K. Mohseni, T. Colonius, and J.B. Freund. On the role of nonlinearity in Mach wave radiation in a Mach=1.92 jet. AIAA Paper 2001-0377, 2001.
59. J.D. Eldredge, T. Colonius, and A. Leonard. A vortex particle method for compressible flows. AIAA Paper 2001-2641, 2001.
60. T. Colonius, C.W. Rowley, and V. Thoefilis. Global instabilities and reduced-order models of cavity flow oscillations. In First Symposium on Global Flow Instability and Control, Crete, Greece, 2001.
61. T. Colonius. Computation of the sources of sound in turbulent flow. J. Acoust. Soc. Am., 109:2488, 2001.
62. T. Colonius. An overview of simulation, modeling, and active control of flow/acoustic resonance in open cavities. AIAA Paper 2001-0076 (Invited), 2001.
63. C.W. Rowley, T. Colonius, and R.M. Murray. POD based models on self-sustained oscillations in the flow past an open cavity. AIAA Paper 2000-1969, 2000.
64. A.T. Preston, T. Colonius, and C.E. Brennen. A numerical investigation of unsteady bubbly caviating nozzle flows. In Fourth International Symposium on Numerical Methods for Multiphase Flow, number FEDSM2000-11145. ASME, 2000.
65. T. Colonius, A.J. Basu, and C.W. Rowley. Numerical investigation of the flow past a cavity. AIAA Paper 99-1912, 1999.
66. T. Colonius, A.J. Basu, and C.W. Rowley. Computation of sound generation and flow/acoustic instabilities in the flow past an open cavity. In Third ASME/JSME Joint Fluids Engineering Conference, number FEDSM99-7228. ASME, 1999.
67. T. Colonius. Direct Numerical Simulation of Sound Generation in Turbulent Shear Flows. J. Acoust. Soc. Am., 105:1391, 1999.
68. C.W. Rowley and T. Colonius. Numerically nonreflecting boundary conditions for multidimensional aeroacoustic computations. AIAA Paper 98-2220, 1998.
69. T. Colonius, C.E. Brennen, and F d’Auria. Computation of shock waves in cavitating flows. In Third International Symposium on Numerical Methods in Multiphase Flow, number FEDSM98-5027. ASME, 1998.
70. C.E. Brennen, T. Colonius, Y.-C. Wang, and A.T. Preston. Cloud cavitation phenomena. In 22nd ONR Naval Hydrodynamics Symposium, Washington, DC, 1998.
71. C.E. Brennen, T. Colonius, and F. d’Auria. Computing shock waves in cloud cavitation. In Third International Symposium on Cavitation, Grenoble, France, 1998.
72. T. Colonius. Nonreflecting boundary and interface conditions. AIAA Paper 96-1661, 1996.
73. T. Colonius, S.K. Lele, and P. Moin. The sound generated by a two-dimensional shear layer: The far field directivity from computations and acoustic analogies. In Computational Aeroacoustics, volume 219. ASME, 1995.
74. T. Colonius, S.K. Lele, and P. Moin. The sound generated by a two-dimensional shear layer: A comparison of direct computations and acoustic analogies. CEAS/AIAA Paper 95-036, 1995.
75. T. Colonius, S.K. Lele, and P. Moin. Direct computation of the sound generated by a two-dimensional mixing layer. AIAA Paper 93-4328, 1993.
76. T. Colonius, S.K. Lele, and P. Moin. Boundary conditions for direct computation of aerodynamic sound generation. DGLR/AIAA Paper 92-02-075, 1992.
77. T. Colonius, S.K. Lele, and P. Moin. Scattering of sound waves by a compressible vortex. AIAA Paper 91-0494, 1991.

Other Publications

1. M.R. Bailey, J.A. McAteer, Y.A. Pishchalnikov, M.F. Hamilton, and T. Colonius. Progress in Lithotripsy Research. Acoustics today, April 2006.
2. T. Colonius. Computational Aeroacoustics: overview and numerical methods. In Computational Aeroacoustics, Lecture Series 2006-05. von Karman Institute for Fluid Dynamics, 2001.
3. T. Colonius. Fundamentals of aeroacoustics. In Advances in Aeroacoustics, number Lecture Series 2001-02. von Karman Institute for Fluid Dynamics, 2001.
4. T. Colonius. Computational aeroacoustics. In Aeroacoustics and Active Noise Control, number Lecture Series 1997-07. von Karman Institute for Fluid Dynamics, 1997.
5. T. Colonius. Aeroacoustics. Aerospace America, 33(12):8–8, 1995.
6. T. Colonius. Direct computation of aerodynamic sound generation. PhD thesis, Stanford University, 1994.