Aradag, S., CFD for High Speed Flows in Engineering, 1st Edition, VDM Verlag Dr. Müller Altiengesellschaft and Co. Kg, Saarbrücken, Germany, 2008.
	Syed, A., Detached Eddy Simulation of Turbulent Flow Over an Open Cavity With and Without Cover Plates, Master of Science Thesis, Wichita State University, America, 2010.
	Tracy, M. B., and Plentovich, B., Cavity Unsteady-Pressure Measurements at Subsonic and Transonic Speeds, NASA Technical Paper, 1997-3669.
	Block, P. J. W., Noise Response of Cavities of Varying Dimensions at Subsonic Speeds, NASA Technical Report, TN D-8351, 1976.
	J. R. J. Dover et al., Aerodynamics and Aero-Acoustics of Rectangular Planform Cavities, Part I: Time-Averaged Flow, Datasheet, Engineering Science Data Unit 02008, 2005.
	H. C. Garner et al., Drag of a rectangular platform Cavity in a Flat Plate with a Turbulent Boundary Layer for Mach Numbers Up to 3. Part II: Open and Transitional Flows, Technical Report, Engineering Science Data Unit 00007, 2000.
	Barakos, G. N., Lawson, S. J., Stejil R. and Nayyar P., Numerical Simulations of High-Speed Turbulent Cavity Flows, Flow Turbulence Combust, 2009, 83(4), pp. 569-585. CrossRef
	Rossiter, J., Wind Tunnel Experiments on the Flow over Rectangular Cavities at Subsonic and Transonic Speeds, Technical Report 64037: Royal Aircraft Establishment 1964.
	Rossiter, J., The Effects Of Cavities On The Buffeting Of Aircraft, Technical Memorandum AERO.754, Royal Aircraft Establishment, UK, 1962.
	Rossiter, J., A Preliminary Investigation into Armament Bay Buffet at Subsonic and Transonic Speeds, Technical Memorandum AERO.679, Royal Aircraft Establishment; August 1960.
	Rossiter, J., Kurn, A., A Wind Tunnel Measurements Of The Unsteady Pressures In And Behind A Bomb Bay, Technical Note AERO.2677, Royal Aircraft Establishment, 1963.
	Lazar, E. Elliot, G. and Glumac, N., Control of the Shear Layer Above a Supersonic Cavity Using Energy Deposition, AIAA Journal, 1997, 46(12), pp. 2987-2997. CrossRef
	Heller, H. H., and Bliss D. B., The physical mechanism of flow-induced pressure fluctuations in cavities and concepts for their suppression, AIAA Paper, 1975-0491.
	Perng, S. W., Passive Control of Pressure Oscillations in Hypersonic Cavity Flow, Ph.D. Dissertation, Dept. of Aerospace Engineering and Engineering Mechanics, University of Texas at Austin, Austin, Texas, USA., 1996.
	Unalmis, O. H., Clemens, N. T. and Dolling, D. S., Experimental Study of Shear Layer/ Acoustics Coupling in Mach 5 Cavity Flow, AIAA Journal, 2001, 39(2), pp. 242-252. CrossRef
	Bueno, P. C., Unalmis, O. H., Clemens, N. T. and Dolling, D. S., The Effects of Upstream Mass Injection on a Mach 2 Cavity Flow, AIAA Paper 2002-0663.
	Stallings, R. L., Store Separations from Cavities at Supersonic Flight Speeds, J. Spacecraft and Rockets, 1983, 20(2), pp. 129-132. CrossRef
	Chung, K. M., Characteristics of Compressible Rectangular Cavity Flows, Journal of Aircraft, 2000, 37(3), pp. 463-468. CrossRef
	Heller, H., Holmes, D. G. and Colvert, E. E., Flow Induced Pressure Oscillations in Shallow Cavities, J. Sound Vib., 1971, 18(4), pp.545-553. CrossRef
	Disimile, P. J. and Toy, N., Acoustical Properties Of A Long Rectangular Cavity Of A Constant Cross-Section Immersed In A Thick Boundary Layer, International Journal of Mechanical Sciences, 2004, 46(12), pp. 1827-1844. CrossRef
	Zhuang, N., Alvi, F. S. and Shih, C., Another Look at Supersonic Cavity Flows And Their Control, AIAA Paper 2005, 2803.
	Haigermoser, C., Scarno, F., Onorato, M., Torino, P. and Delft, TU., Investigation Of The Flow in the Rectangular Cavity Using Tomographic and Time Resolved PIV, 26th International Congress of the Aeronautical Sciences, USA, 2008.
	Wilcox, D. C., Turbulence Modeling for CFD, 2th edition, DCW Industries Inc., La Canada, CA, 1994.
	Shieh, M. C. and Morris, P., Comparison of Two and Three Dimensional Turbulent Cavity Flows, AIAA Paper, 2001-0511.
	Plentovich, E. B., Three Dimensional Cavity Flow Fields At Subsonic and Transonic Speeds, NASA Technical Memorandum 4209, 1990.
	Shih, S. H., Hamed, A. and Yeuan, J. J., Unsteady Supersonic Cavity Flow Simulations Using Coupled k-epsilon and Navier-Stokes Equations, AIAA Journal, 1994, 32(10), pp. 2015-2021, 1994. CrossRef
	Kaufman, L. G., Maciulaitis A., and Clark, R. L., Mach 0.6 To 3.0 Flows Over Rectangular Cavities, Air Force Wright Aeronautical Labs., AFWAL-TR-82-3112, 1993.
	Ashcroft, G. and Zhang, X., A Computational Investigation of the Noise Radiated by Flow Induced Cavity Oscillations, AIAA Paper, 2001-0512.
	Ahuja, K. K. and Mendoza, J., Effects of Cavity Dimensions, Boundary Layer and Temperature on Cavity Noise with Emphasis on Benchmark Data to Validate Computational Aero acoustics Codes, NASA Contractor Rep. 4653, 1995.
	Ayli, E., Yilmaz, I., Aradag, S., Numerical Analysis of Supersonic Cavity Flow, The Sixth International Conference on Thermal Engineering Theory and Application, Istanbul, Turkey, May 29-June 1, 2012.
	Aradag, S and Knight, D., Simulation of Supersonic Cavity Flow Using 3D RANS Equations, AIAA Paper 2004-4966.
	Rizetta, D. P. and Visbal, M. R. Large Eddy Simulation of Supersonic Cavity Flow fields Including Flow Control, AIAA Paper 2002-2853.
	Basu, D., Hamed, A. and Das, K., DES, Hybrid RANS/LES and PANS Models For Unsteady Separated Turbulent Flow Simulations, Proceedings of FEDSM, Texas, USA, June 19-23, 2005.
	Driver, D. M., and Seegmiller, H. L., Features of a Reattaching Turbulent Shear Layer in Divergent Channel Flow, AIAA Journal, 1985, 23(2), pp. 163-171. CrossRef
	Bres, G. A. and Colonius, T., Direct Numerical Simulations of Three Dimensional Cavity Flows, AIAA Paper 2007-3405.
	Hamed, A., Basu, D., Das, K., Numerical Simulation of Transonic Flow Acoustic Resonance in Cavity, Proceedings of ICFDP7, Cairo, Egypt, Dec. 19-21 2001.
	Colonius, T., An overview on simulation, modeling, and active control of flow/acoustic resonance in open cavities, AIAA Paper 2001-0076.
	Lai, H. and Luo, K. H., Large Eddy Simulation and Control of Cavity Aeroacoustics, Conference on Turbulence and Interactions TI2006, May 29 - June 2, Porquerolles, France, 2006.
	Rowley, W. C. and Vejapong, J., Cavity flow control simulations and experiments, AIAA Paper 2005-0292.
	Unalmis, O. H., Clemens, N. T. and Dolling, D. S., Cavity oscillation mechanisms in high-speed flows, AIAA Journal, 2004, 42(10), pp. 2035-2041. CrossRef
	Perng, S. W. and Dolling, D. S., Suppression of Pressure Oscillations in High Mach Number, Turbulent Cavity Flow, Journal of Aircraft, 2001, 38(2), pp. 248-256. CrossRef
	Sarpotdar, S., Panickar, P. and Raman, G., Stability of a Hybrid Mean Velocity Profile and Its Relevance to Cavity Resonance Suppression, Physics of Fluids, 2010, 22(7), pp. 076-101.
	Panickar, P. and Raman, G., Using Linear Stability Analysis as a Tool to Evaluate Jet and Cavity Flow Control Situations, International Journal of Flow Control, 2009, 1(1), pp. 43-72. Abstract
	Kral, D. L., Active Flow Control Technology, ASME Fluids Engineering Division Technical Brief, 1999.
	Hamed, A., Basu, D. and Das, K., Numerical Simulations of Fluidic Control for Transonic-Cavity Flows, AIAA Paper 2004-0429.
	Ross, J. A., Odedra J. and Peto, J., DERA Bedford Internal Report, MSSA CR980744/1.0., 1998.
	Raman, G. and Raghu, S., Cavity Resonance Suppression Using Miniature Fluidic Oscillators, AIAA Journal, 2004, 42(12), pp. 2608-2612. CrossRef
	Schmit, R. F. and Raman, G., High and Low Frequency Actuation Comparison for a Weapons Bay Cavity, International Journal of Aeroacoustics, 2006, 5(4), pp. 395-414. Abstract
	Zhuang, N., Alvi, F. S., Alkislar, M. B., Shih, C., Sahoo, D. and Annaswamy, A. M., Aeroacoustic Properties of Supersonic Cavity Flows and Their Control, AIAA Paper, 2003-3101.
	Alvi, F. S., Shih, C., Elavarasan, R., Garg, G. and Krothapalli, A., Control of Supersonic Impinging Jet Flows Using Supersonic Microjets, AIAA Journal, 2003, 41(7), pp. 1347-1355. CrossRef
	Choi, J. J., Annaswamy, A., Lou, H. and Alvi, F. S., Active Control of Supersonic Impinging Tones Using Steady and Pulsed Microjets, Experiments in Fluids, 2006, 41(6), pp. 841-855. CrossRef
	Chan, S., Zhang, X. and Gabriel, S., Attenuation of Low-Speed Flow-Induced Cavity Tones Using Plasma Actuators, AIAA Journal, 2007, 45(7), pp. 1525-1538. CrossRef
	Miles, B. R., Flow Control by Energy Addition into High-Speed Air, AIAA Paper, 2000-2324.
	Knight, D., Kuchinskiy, V., Kuranov, A. and Sheikin, E. Aerodynamic Flow Control at High Speed Using Energy Deposition, Fourth Workshop on Magneto- and Plasma Aerodynamics for Aerospace Applications, IVTAN, Moscow, Russia, 2002, pp. 14-30.
	Belokon, V., Rudenko, O. and Khokhlov, R., Aerodynamic Effects of Supersonic Flow Past a Laser Beam, Akusticheski Zhurnal, July-August 1977, 23, pp. 632-634.
	Krasnobaev, K. and Syunyaev, R., Calculation of Flow of Stellar Wind Past an X-ray Source, Mekhanika Zhidkosti i Gaza, 1983, (4), pp. 106-111.
	Terent'eva, L., Supersonic Flow Over Energy-Releasing Sources, Mekhanika Zhidkosti i Gaza, 1992, (5), pp. 179-182.
	Georgievskii, P. and Levin, V., Modification of the Regime of Flow Past a Pulsing Energy Source of High Power, In Proceedings of the 9th International Conference on Methods in Aerophysical Research, Russia, 1998, pp. 58-64.
	Levin, V. and Terent'eva, L., Supersonic Flow Over a Cone with Heat Release in the Neighborhood of the Apex, Mikhanika Zhidkosti i Gaza, 1993, (2), pp.110-114.
	Yuriev, A., Korzh, S., Pirogov, S., Savischenko, N., Leonov, S. and Ryizhov, E., Transonic Streamlining of Profile at Energy Addition in Local Supersonic Zone, Third Workshop on Magneto-Plasma-Aerodynamics in Aerospace Applications, Moscow, 2001.
	Golyatin, V., Kuranov, A., Kuchinsky, A., and Sukhomlinov, V., The Mechanism of Influence of Low-Temperature Plasma on Aerodynamic Streamlining, AIAA Paper, 2001-3055.
	Poggie, J., Gaitonde, D., Computational Studies of Magnetic Control in Hypersonic Flow, AIAA Paper 2001-0196.
	Knight, D., High Speed Flow Control Using Microwave Energy Deposition, AIAA Paper, 2008-1354.
	Samimy, M., Kim, H. J., Kastner, J., Adamovich, I. and Utkin, Y., Active Control of a Mach 0.9 Jet for Noise Mitigation Using Plasma Actuators, AIAA Journal, 2007, 45(4), pp. 890-901. CrossRef
	Samimy, M., Adamovich, I., Webb, B., Kastner, J., Hileman, J., Keshav, S. and Palm, P., Development and characterization of plasma actuators for high-speed jet control, Experiments in Fluids, 2004, 37(4), pp. 577-588. CrossRef
	Adelgren, R., Elliott, G., Knight, D., Zheltovodov, A. and Buetner. T., Localized Flow Control in Supersonic Flows by Pulsed Laser Energy Deposition, In V. Bityurin, editor, Third Workshop on Magneto-Plasma-Aerodynamics in Aerospace Applications, Moscow, April 2001, pp. 216.
	Meyerand, R. and Haught, A., Gas break down at optical frequencies, Physical Review Letter, 1963, 11(9), 401-403. CrossRef
	Ghosh, S. and Manesh, K., Numerical Simulation of the Fluid Dynamic Effects of Laser Energy Deposition in Air, J. Fluid Mech., 2008, 605, pp. 329-354.
	Glumac, N. and Elliot, G., The Effect Of Ambient Pressure On Laser-Induced Plasmas in Air, Optics and Laser in Engineering, 2007, 45(1), pp. 27-35. CrossRef
	Schülein, E., Zheltovodov, A., Loginov, M. S. and Pimonov, E. A., Experimental and Numerical Study of Shock Wave Transformation by Laser-Induced Energy Deposition, International Conference on Methods of Aerophysical Research, ICMAR, Russia, 2008.
	Zaidi, S. H., Shneider, M. N., Manusfield, D. K., Ionikh, Y. Z. and Miles, R. B., Influence of Upstream Pulsed Energy Deposition On a Shockwave Structure in Supersonic Flow, AIAA Paper 2002-2703.
	Adelgren, R., Elliot, G. and Knight, D., Laser Energy Deposition in Transverse Wall Jets and Intersecting Shocks, Second Workshop on Thermochemical Process in Plasma Aerodynamics, St. Petersburg, Russia, September 9-12, 2001.
	Adelgren, R., Elliott, G., Knight, D., Zheltovodov, A. and Buetner, T., Energy Deposition in Supersonic Flows, AIAA Paper 2001-0885.
	Yan, H., Adelgren, R., Elliott, G., Knight, D., Beutner, T., Ivanov, M., Kudryavtsev, A. and Khotyanovsky, D., Laser Energy Deposition in Quiescent Air and Intersecting Shocks, Fourth Workshop on Magneto- and Plasma Aerodynamics for Aerospace Applications, IVTAN, Moscow, Russia, 2002.
	Aradag, S., Yan, H. and Knight, D., The Effects of Laser Energy Deposition on Supersonic Cavity Flow, Thermal Science and Technology, 2009, 29(2), pp. 67-73.
	Yilmaz, I., Ayli, E., Aradag S., Control of Supersonic Cavity Flow, The Sixth International Conference on Thermal Engineering Theory and Application, Istanbul, Turkey, May - June, 2012.