Laboratory for Hypersonic and Shock wave Research
Department of Aerospace Engineering, Indian Institute of Science
Publications
Journal - 2017
  1. Bisht, A., Ray, N., Jagadeesh, G., & Suwas, S. (2017). Microstructural and crystallographic response of shock-loaded pure copper. Journal of Materials Research, 1-15.
  2. Karthick, S. K., Rao, S. M., Jagadeesh, G., & Reddy, K. P. J. (2017). Passive scalar mixing studies to identify the mixing length in a supersonic confined jet. Experiments in Fluids, 58(5), 59.
  3. Khatta, A., & Jagadeesh, G. (2017). Shock interactions in hypersonic flows outside the sonic circle in front of a blunt body. Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 0954410017705902.
  4. Biennier, L., Jayaram, V., Suas-David, N., Georges, R., Singh, M. K., Arunan, E., ... & Reddy, K. P. J. (2017). Shock-wave processing of C60 in hydrogen. Astronomy & Astrophysics, 599, A42.

Journal - 2016
  1. Sriram, R., Srinath, L., Devaraj, M. K. K., & Jagadeesh, G. (2016). On the length scales of hypersonic shock-induced large separation bubbles near leading edges. Journal of Fluid Mechanics, 806, 304-355.
  2. Thakur, R., & Jagadeesh, G. (2016). Experimental analysis of shock stand-off distance over spherical bodies in high-enthalpy flows. Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 0954410016674035.
  3. Janardhanraj, S., & Jagadeesh, G. (2016). Development of a novel miniature detonation-driven shock tube assembly that uses in situ generated oxyhydrogen mixture. Review of Scientific Instruments, 87(8), 085114.
  4. Karthick, S. K., Rao, S. M., Jagadeesh, G., & Reddy, K. P. J. (2016). Parametric experimental studies on mixing characteristics within a low area ratio rectangular supersonic gaseous ejector. Physics of Fluids, 28(7), 076101.
  5. Sriram, R., & Jagadeesh, G. (2016). Shock-tunnel investigations on the evolution and morphology of shock-induced large separation bubbles. The Aeronautical Journal, 120(1229), 1123-1152.
  6. Hegde, G. M., Jagadeesh, G., & Reddy, K. P. J. (2016). Time-Resolved Digital Interferometry for High Speed Flow Visualization in Hypersonic Shock Tunnel. Journal of the Indian Institute of Science, 96(1), 63-72.
  7. Karthick, S. K., Gopalan, J., & Reddy, K. P. J. (2016). Visualization of Supersonic Free and Confined Jet using Planar Laser Mie Scattering Technique. Journal of the Indian Institute of Science, 96(1), 29-46.
  8. Datey, A., Thaha, C. A., Patil, S. R., Gopalan, J., & Chakravortty, D. (2016). Enhancing the efficiency of desensitizing agents with shockwave treatment-a new paradigm in dentinal hypersensitivity management. RSC Advances, 6(73), 68973-68978.
  9. Sriram, R., & Jagadeesh, G. (2016). Shock Tunnels and Hypersonic Research in IISc, Bangalore. In Experimental Methods of Shock Wave Research (pp. 347-378). Springer International Publishing.
  10. Medhi, B., Hegde, G. M., Gorthi, S. S., Reddy, K. J., Roy, D., & Vasu, R. M. (2016). Improved quantitative visualization of hypervelocity flow through wavefront estimation based on shadow casting of sinusoidal gratings. Applied Optics, 55(22), 6060-6071.
  11. Vishakantaiah, J., & Reddy, K. P. J. (2016). Catalytic Effect of CeO2-Stabilized ZrO2 Ceramics with Strong Shock-Heated Mono-and Di-Atomic Gases. Journal of the American Ceramic Society, 99(12), 4128-4136.
  12. Jayaram, V., & Reddy, K. P. J. (2016). Experimental Study of the Effect of Strong Shock Heated Test Gases With Cubic Zirconia. Adv. Mater. Lett, 7(11), 122-7.
  13. Mohammed Ibrahim, S., Vivek, P., & Reddy, K. P. J. (2016). Experimental Investigation on Transpiration Cooling Effectiveness for Spacecraft Entering Martian Atmosphere. AIAA Journal, 2922-2926.
  14. Kumar, C. S., & Reddy, K. P. J. (2016). Experiments in hand-operated, hypersonic shock tunnel facility. Shock Waves, 26(6), 845-849.

Journal - 2015
  1. Sriram, R., & Jagadeesh, G. (2015). Correlation for length of impinging shock-induced large separation bubble at hypersonic speed. AIAA Journal, 53(9), 2771-2776.
  2. Sriram, R., Ram, S. N., Hegde, G. M., Nayak, M. M., & Jagadeesh, G. (2015). Shock tunnel measurements of surface pressures in shock induced separated flow field using MEMS sensor array. Measurement Science and Technology, 26(9), 095301.
  3. Rao, S. M., & Jagadeesh, G. (2015). Studies on the effects of varying secondary gas properties in a low entrainment ratio supersonic ejector. Applied Thermal Engineering, 78, 289-302.
  4. Singh, V., Samuelraj, I. O., Venugopal, R., Jagadeesh, G., & Banerjee, P. K. (2015). Study the effect of electrical and mechanical shock loading on liberation and milling characteristics of mineral materials. Minerals Engineering, 70, 207-216.
  5. Ray, N., Jagadeesh, G., & Suwas, S. (2015). Response of shock wave deformation in AA5086 aluminum alloy. Materials Science and Engineering: A, 622, 219-227.
  6. Gnanadhas, D. P., Elango, M., Janardhanraj, S., Srinandan, C. S., Datey, A., Strugnell, R. A., ... & Chakravortty, D. (2015). Successful treatment of biofilm infections using shock waves combined with antibiotic therapy. Scientific reports, 5, 17440.
  7. Gnanadhas, D. P., Elango, M., Thomas, M. B., Gopalan, J., & Chakravortty, D. (2015). Remotely triggered micro-shock wave responsive drug delivery system for resolving diabetic wound infection and controlling blood sugar levels. RSC Advances, 5(17), 13234-13238.
  8. Sharath, N., Reddy, K. P. J., Barhai, P. K., & Arunan, E. (2015). Ignition delay of 3-carene: single pulse shock tube study. CURRENT SCIENCE, 108(11), 2083-2087.
  9. Sharath, N., Chakravarty, H. K., Reddy, K. P. J., Barhai, P. K., & Arunan, E. (2015). Pyrolysis of 3-carene: Experiment, Theory and Modeling. Journal of Chemical Sciences, 127(12), 2119-2135.
  10. Srinath, S., & Reddy, K. P. J. (2015). Large carbon cluster thin film gauges for measuring aerodynamic heat transfer rates in hypersonic shock tunnels. Measurement Science and Technology, 26(2), 025901.

Journal - 2014
  1. Sriram, R., & Jagadeesh, G. (2014). Shock tunnel experiments on control of shock induced large separation bubble using boundary layer bleed. Aerospace Science and Technology, 36, 87-93.
  2. Zare-Behtash, H., Gongora-Orozco, N., Kontis, K., & Jagadeesh, G. (2014). Detonation-driven-shock wave interactions with perforated plates. Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 228(5), 671-678.
  3. Rao, S. M., & Jagadeesh, G. (2014). Observations on the non-mixed length and unsteady shock motion in a two dimensional supersonic ejector. Physics of Fluids, 26(3), 036103.
  4. Shelar, V. M., Hegde, G. M., Umesh, G., Jagadeesh, G., & Reddy, K. P. J. (2014). Gas Phase Oxygen Quenching Studies of Ketone Tracers for Laser-Induced Fluorescence Applications in Nitrogen Bath Gas. Spectroscopy Letters, 47(1), 12-18.
  5. Rao, M., Hoysall, D. C., & Gopalan, J. (2014). Mahogany seed-a step forward in deciphering autorotation. CURRENT SCIENCE, 106(8), 1101-1109.
  6. Jayaram, V., Gupta, A., & Reddy, K. P. J. (2014). Investigation of strong shock wave interactions with CeO2 ceramic. Journal of Advanced Ceramics, 3(4), 297-305.
  7. Kumar, C. S., Singh, T., & Reddy, K. P. J. (2014). Investigation of the separated region ahead of three-dimensional protuberances on plates and cones in hypersonic flows with laminar boundary layers. Physics of Fluids, 26(12), 126101.
  8. Medhi, B., Hegde, G. M., Reddy, K. P. J., Roy, D., & Vasu, R. M. (2014). Quantitative estimation of density variation in high-speed flows through inversion of the measured wavefront distortion. Optical Engineering, 53(12), 124107-124107.
  9. Sharath, N., Reddy, K. P. J., & Arunan, E. (2014). Thermal decomposition of propargyl alcohol: single pulse shock tube experimental and ab initio theoretical study. The Journal of Physical Chemistry A, 118(31), 5927-5938.
  10. Bhat, D. I., Shukla, D., Mahadevan, A., Sharath, N., & Reddy, K. P. J. (2014). Validation of a blast induced neurotrauma model using modified Reddy tube in rats: A pilot study. The Indian Journal of Neurotrauma, 11(2), 91-96.
  11. Ibrahim, S. M., Sriram, R., & Reddy, K. P. J. (2014). Experimental investigation of heat flux mitigation during Martian entry by coolant injection. Journal of Spacecraft and Rockets, 51(4), 1363-1368.
  12. Brontvein, O., Jayaram, V., Reddy, K. P. J., Gordon, J. M., & Tenne, R. (2014). Two‐step Synthesis of MoS2 Nanotubes using Shock Waves with Lead as Growth Promoter. Zeitschrift für anorganische und allgemeine Chemie, 640(6), 1152-1158.
  13. Kumar, C. S., & Reddy, K. P. J. (2014). Hypersonic interference heating on cones with short three-dimensional protuberances. Experimental Thermal and Fluid Science, 55, 29-41.
  14. Shelar, V. M., Rao, S., Hegde, G. M., Umesh, G., Jagadeesh, G., & Reddy, K. P. J. (2014). Acetone planar laser-induced fluorescence for supersonic flow visualization in air and nitrogen jet. International Journal of Mechanical and Materials Engineering, 9(1), 28.
  15. Kumar, C. S., & Reddy, K. P. J. (2014). Hypersonic interference heating on flat plate with short three-dimensional protuberances. AIAA Journal, 52(4), 747-756.

Journal - 2013
  1. Venkatakrishnan, L., Suriyanarayanan, P., & Jagadeesh, G. (2013). Density field visualization of a Micro-explosion using background-oriented schlieren. Journal of visualization, 16(3), 177-180.
  2. Samuelraj, I. O., Jagadeesh, G., & Kontis, K. (2013). Micro-blast waves using detonation transmission tubing. Shock Waves, 23(4), 307-316.
  3. Shelar, V. M., Hegde, G. M., Umesh, G., Jagadeesh, G., & Reddy, K. P. J. (2013). Visualization of coherent structures in turbulent subsonic jet using planar laser induced fluorescence of acetone. The European Physical Journal Applied Physics, 62(3), 31102.
  4. Sriram, R., Srisha, M., Pal, S., & Jagadeesh, G. (2012). Smoke Flow Visualizations for the Study of Surface Dielectric Barrier Discharge Induced Flow Field. International Journal of Aerospace Innovations, 4(3), 75-84.
  5. Rao, M. S., & Jagadeesh, G. (2013). Visualization and image processing of compressible flow in a supersonic gaseous ejector. Journal of the Indian Institute of Science, 93(1), 57-66.
  6. Kumar, C. S., & Reddy, K. P. J. (2013). Experimental investigation of heat fluxes in the vicinity of protuberances on a flat plate at hypersonic speeds. Journal of Heat Transfer, 135(12), 121701.
  7. Reddy, N. K., Moon, W. J., Kwon, Y. B., Jayaram, V., Arunan, E., & Reddy, K. P. J. (2013). Sustainability of Carbon Nanocomposites Under High Temperature and Pressure. Journal of Basic and Applied Physics May, 2(2), 78-85.
  8. Jayaram, V., Singh, P., & Reddy, K. P. J. (2013). Study of Anatase TiO2 in the Presence of N2 under Shock Dynamic Loading in a Free Piston Driven Shock Tube. Vacuum, 8(10).
  9. Vasu, K., Matte, H. S. S. R., Shirodkar, S. N., Jayaram, V., Reddy, K. P. J., Waghmare, U. V., & Rao, C. N. R. (2013). Effect of high-temperature shock-wave compression on few-layer MoS 2, WS 2 and MoSe 2. Chemical Physics Letters, 582, 105-109.
  10. Mohammed Ibrahim, S., & Reddy, K. P. J. (2013). Heat transfer measurements over large angle blunt cones entering martian atmosphere. Journal of Spacecraft and Rockets, 50(3), 718-721.
  11. Reddy, N. K., Jayaram, V., Arunan, E., Kwon, Y. B., Moon, W. J., & Reddy, K. P. J. (2013). Investigations on high enthalpy shock wave exposed graphitic carbon nanoparticles. Diamond and Related Materials, 35, 53-57.
  12. Reddy, K. P. J., & Sharath, N. (2013). Manually operated piston-driven shock tube. Current Science, 104(2), 172-176.

Journal - 2012
  1. Nataraja, K. N., & Jagadeesh, G. (2012). Comment on "Physical methods for genetic plant transformation" by Rivera et al. Physics of life reviews, 9(3), 350-351.
  2. Sriram, R., Srisha, M., Pal, S., & Jagadeesh, G. (2012). Smoke Flow Visualizations for the Study of Surface Dielectric Barrier Discharge Induced Flow Field. International Journal of Aerospace Innovations, 4(3), 75-84.
  3. Jagadeesh, G. (2012). Role of flow kinematic and energetic effects in hypersonic flow control. International Journal of Aerodynamics, 2(2-4), 210-221.
  4. Nagaraja, S. R., Rakesh, S. G., Prasad, J. K., Barhai, P. K., & Jagadeesh, G. (2012). Investigations on micro-blast wave assisted metal foil forming for biomedical applications. International Journal of Mechanical Sciences, 61(1), 1-7.
  5. Gardez, A., Saidani, G., Biennier, L., Georges, R., Hugo, E., Chandrasekaran, V., ... & Arunan, E. (2012). High‐temperature kinetics of the reaction between CN and hydrocarbons using a novel high‐enthalpy flow tube. International Journal of Chemical Kinetics, 44(11), 753-766.
  6. Hegde, G. M., Kulkarni, V., Nagaboopathy, M., & REDDY, K. P. (2012). Structure and morphology studies of chromium film at elevated temperature in hypersonic environment. Bulletin of Materials Science, 1-5.

Journal - 2011
  1. Anandhakumar, S., Vijayalakshmi, S. P., Jagadeesh, G., & Raichur, A. M. (2011). Silver nanoparticle synthesis: novel route for laser triggering of polyelectrolyte capsules. ACS applied materials & interfaces, 3(9), 3419-3424.
  2. Nagaraja, S. R., Prasad, J. K., & Jagadeesh, G. (2012). Theoretical-experimental study of shock wave-assisted metal forming process using a diaphragmless shock tube. Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 226(12), 1534-1543.
  3. Prakash, G. D., Anish, R. V., Jagadeesh, G., & Chakravortty, D. (2011). Bacterial transformation using micro-shock waves. Analytical biochemistry, 419(2), 292-301.
  4. Ratan, J., & Jagadeesh, G. (2012). Investigations on supersonic combustion in a combustion-driven shock tunnel. Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 226(9), 1183-1191.
  5. Jagadeesh, G., Prakash, G. D., Rakesh, S. G., Allam, U. S., Krishna, M. G., Eswarappa, S. M., & Chakravortty, D. (2011). Needleless vaccine delivery using micro-shock waves. Clinical and Vaccine Immunology, 18(4), 539-545.
  6. Reddeppa, P., Nagashetty, K., Saravanan, S., Jagadeesh, G., & Gai, S. L. (2011). Measurement of heat transfer rate on backward-facing steps at hypersonic Mach number. Journal of Thermophysics and Heat Transfer, 25(3), 321-328.
  7. Saravanan, S., Nagashetty, K., Hegde, G. M., Jagadeesh, G., & Reddy, K. P. J. (2011). Schlieren visualization of shock wave phenomena over a missile-shaped body at hypersonic Mach numbers. Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 225(1), 26-34.
  8. Hariharan, M. S., Janardhanraj, S., Saravanan, S., & Jagadeesh, G. (2011). Diaphragmless shock wave generators for industrial applications of shock waves. Shock Waves, 21(3), 301-306.
  9. Jayaram, V., Preetam, S., & Reddy, K. P. J. (2011). Experimental investigation of nano ceramic material interaction with high enthalpy argon under shock dynamic loading. In Applied Mechanics and Materials (Vol. 83, pp. 66-72). Trans Tech Publications.

Journal - 2010
  1. Zare-Behtash, H., Gongora-Orozco, N., Kontis, K., & Jagadeesh, G. (2010). Study of detonation interactions inside a two-dimensional ejector using detonation transmission tubing. Journal of Propulsion and Power, 26(4), 878-882.
  2. Raguraman, M., Jagadeesh, G., Deb, A., & Barton, D. C. (2010). Experimental and numerical investigation of the behavior of aluminium plates upon ballistic impact. Experimental techniques, 34(6), 49-60.
  3. Rao, S., & Jagadeesh, G. (2010). Vector evaluated particle swarm optimization (VEPSO) of supersonic ejector for hydrogen fuel cells. Journal of Fuel Cell Science and Technology, 7(4), 041014.
  4. Srinath, S., & Reddy, K. J. (2010). Experimental investigation of the effects of aerospike geometry on aerodynamic drag and heat transfer rates for a blunt body configuration at hypersonic Mach numbers. International Journal of Hypersonics.
  5. Kulkarni, V. N., Menezes, V. I., & J. Reddy, K. P. (2010). Effectiveness of aerospike for drag reduction on a blunt cone in hypersonic flow. Journal of Spacecraft and Rockets, 47(3), 542-544.
  6. Kulkarni, V., & Reddy, K. P. J. (2010). Counterflow drag reduction studies for a blunt cone in high enthalpy flow. International Journal of Hypersonics, 1(1), 69-76.
  7. Kulkarni, V., & Reddy, K. P. J. (2010). Accelerometer-Based Force Balance for High Enthalpy Facilities. Journal of Aerospace Engineering, 23(4), 276-280.

Journal - 2009
  1. Raguraman, M., Deb, A., & Jagadeesh, G. (2009). A numerical study of projectile impact on thin aluminium plates. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 223(11), 2519-2530.
  2. Mahapatra, D., & Jagadeesh, G. (2009). Studies on unsteady shock interactions near a generic scramjet inlet. AIAA journal, 47(9), 2223-2232.
  3. Saravanan, S., Jagadeesh, G., & Reddy, K. P. J. (2009). Convective heat-transfer rate distributions over a missile shaped body flying at hypersonic speeds. Experimental Thermal and Fluid Science, 33(4), 782-790.
  4. Sriram, R., & Jagadeesh, G. (2009). Film cooling at hypersonic Mach numbers using forward facing array of micro-jets. International journal of heat and mass transfer, 52(15), 3654-3664.
  5. Jagadeesh, G. (2012). Role of flow kinematic and energetic effects in hypersonic flow control. International Journal of Aerodynamics, 2(2-4), 210-221.
  6. Satheesh, K., & Jagadeesh, G. (2009). Analysis of an internally mountable accelerometer balance system for use with non-isotropic models in shock tunnels. Measurement, 42(6), 856-862.
  7. Jagadeesh, G., & Nataraja, K. N. (2009). Applications of shock waves in agriculture research. International Journal of Aerospace Innovations, 1(1), 23-30.
  8. Saravanan, S., Jagadeesh, G., & Reddy, K. P. J. (2009). Aerodynamic force measurement using 3-component accelerometer force balance system in a hypersonic shock tunnel. Shock Waves, 18(6), 425-435.

Journal - 2008
  1. Mahapatra, D., Sriram, R., & Jagadeesh, G. (2008). Effect of counterflow argon plasma jet on aerodynamic drag of a blunt body at hypersonic Mach numbers. Aeronautical Journal, 112(1137), 683.
  2. Mahapatra, D., & Jagadeesh, G. (2008). Shock tunnel studies on cowl/ramp shock interactions in a generic scramjet inlet. Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering, 222(8), 1183-1191.
  3. Kulkarni, V., Hegde, G. M., Jagadeesh, G., Arunan, E., & Reddy, K. P. J. (2008). Aerodynamic drag reduction by heat addition into the shock layer for a large angle blunt cone in hypersonic flow. Physics of Fluids, 20(8), 081703.
  4. Satheesh, K., & Jagadeesh, G. (2008). Experimental investigations on the effect of energy deposition in hypersonic blunt body flow field. Shock waves, 18(1), 53.
  5. Jagadeesh, G., & Nataraja, K. N. (2009). Applications of shock waves in agriculture research. International Journal of Aerospace Innovations, 1(1), 23-30.
  6. Joarder, R., & Jagadeesh, G. (2008). Roe linearization for the Euler equations augmented by the convective terms from the k–ω turbulence model. International journal for numerical methods in fluids, 57(10), 1569-1576.

Journal - 2007
  1. Satheesh, K., & Jagadeesh, G. (2007). Effect of concentrated energy deposition on the aerodynamic drag of a blunt body in hypersonic flow. Physics of fluids, 19(3), 031701.
  2. Satheesh, K., Jagadeesh, G., & Reddy, K. P. J. (2007). High speed schlieren facility for visualization of flow fields in hypersonic shock tunnels. Current Science, 92(1), 56-60.
  3. Sahoo, N., Mahapatra, D. R., Jagadeesh, G., Gopalakrishnan, S., & Reddy, K. P. J. (2007). Design and analysis of a flat accelerometer-based force balance system for shock tunnel testing. Measurement, 40(1), 93-106.

Journal - 2006
  1. Venukumar, B., Jagadeesh, G., & Reddy, K. P. J. (2006). Counterflow drag reduction by supersonic jet for a blunt body in hypersonic flow. Physics of fluids, 18(11), 118104.
  2. Sahoo, N., Saravanan, S., Jagadeesh, G., & Reddy, K. P. (2006). Simultaneous measurement of aerodynamic and heat transfer data for large angle blunt cones in hypersonic shock tunnel. Sadhana, 31(5), 557-581.
  3. Menezes, V. I., Takayama, K., Sun, M., Gopalan, J., & Jagannatha Reddy, K. P. (2006). Drag Reduction by Controlled Base Flow Separation. Journal of aircraft, 43(5), 1558-1561.

Journal - 2005
  1. Menezes, V., Takayama, K., Ohki, T., & Gopalan, J. (2005). Laser-ablation-assisted microparticle acceleration for drug delivery. Applied Physics Letters, 87(16), 163504.
  2. Gopalan, J., Menezes, V., REDDY, K. J., Hashimoto, T., Mingyu, S. U. N., Saito, T., & Takayama, K. (2005). Flow fields of a large-angle, spiked blunt cone at hypersonic Mach numbers. Transactions Of The Japan Society For Aeronautical And Space Sciences, 48(160), 110-116.
  3. Sahoo, N., Kulkarni, V., Saravanan, S., Jagadeesh, G., & Reddy, K. P. J. (2005). Film cooling effectiveness on a large angle blunt cone flying at hypersonic speed. Physics of Fluids, 17(3), 036102.
  4. Viren, M., Jagadeesh, G., Reddy, K. J., Sun, M., & Takayama, K. (2005). Visualization of shock waves around hypersonic spiked blunt cones using electric discharge. Journal of visualization, 8(1), 65-72.

Journal - 2004
  1. Jagadeesh, G., Nataraja, K. N., & Udayakumar, M. (2004). Shock waves can enhance bacterial transformation with plasmid DNA. Current Science, 87(6), 734-735.
  2. Saito, T., Menezes, V., Kuribayashi, T., Sun, M., Jagadeesh, G., & Takayama, K. (2003). Unsteady convective surface heat flux measurements on cylinder for CFD code validation. Shock Waves, 13(5), 327-337.
  3. Joarder, R., & Jagadeesh, G. (2003). A new free floating accelerometer balance system for force measurements in shock tunnels. Shock Waves, 13(5), 409-412.

Journal - 2003
  1. Ramjaun, D., Kato, I., Takayama, K., & Jagadeesh, G. (2003). Hypervelocity impacts on thin metallic and composite space debris bumper shields. AIAA journal, 41(8), 1564-1572.
  2. Menezes, V., Saravanan, S., Jagadeesh, G., & J. Reddy, K. P. (2003). Experimental investigations of hypersonic flow over highly blunted cones with aerospikes. AIAA journal, 41(10), 1955-1966.
  3. Sahoo, N., Mahapatra, D. R., Jagadeesh, G., Gopalakrishnan, S., & Reddy, K. P. J. (2003). An accelerometer balance system for measurement of aerodynamic force coefficients over blunt bodies in a hypersonic shock tunnel. Measurement Science and Technology, 14(3), 260.
  4. Jagadeesh, G., Hashimoto, T., Naitou, K., Sun, M., & Takayama, K. (2003). Visualization of unsteady shock oscillations in the high-enthalpy flow field around double cones. Journal of visualization, 6(2), 195-203.
  5. Sun, M., Yada, K., Jagadeesh, G., Onodera, O., Ogawa, T., & Takayama, K. (2003). A study of shock wave interaction with a rotating cylinder. Shock Waves, 12(6), 479-485.

Journal - 2002
  1. Jagadeesh, G., & Takayama, K. (2002). Novel applications of micro-shock waves in biological sciences. Journal of Indian Institute of Science, 82, 1-10.
  2. Jagadeesh, G., Nagashetty, K., Reddy, K. J., Sun, M., & Takayama, K. (2002). Studies on the effects of test gas on the flow field around large angle blunt cone flying at hypersonic Mach number. Transactions of the Japan Society for Aeronautical and Space Sciences, 45(149), 189-194.

Journal - 2001
  1. Jagadeesh, G., Onodera, O., Ogawa, T., Takayama, K., & Jiang, Z. (2001). Micro-shock waves generated inside a fluid jet impinging on plane wall. AIAA journal, 39(3), 424-430.

Journal - 2000
  1. Nagashetty, K., Saifuddin, S. K., Saravanan, S., Gurumurthy, K. S., Jagadeesh, G., & Reddy, K. P. J. (2000). Visualization of shock shapes around blunt bodies at hypersonic Mach number in a shock tunnel using electrical discharge technique. Current Science, 79(8), 1086-1089.
  2. Jagadeesh, G., Reddy, N. M., Nagashetty, K., & J. Reddy, K. P. (2000). Forebody convective hypersonic heat transfer measurements over large-angle blunt cones. Journal of Spacecraft and Rockets, 37(1), 137-139.

Journal - 1997
  1. Jagadeesh, G., Rao, B. S., Nagashetty, K., Reddy, N. M., & Reddy, K. P. J. (1997). Electrical discharge technique for three-dimensional flow field visualization in hypersonic shock tunnel. Journal of Flow Visualization and Image Processing, 4(1), 51-57.

Journal - 1996
  1. Reddy, N. M., Nagashetty, K., Jagadeesh, G., & Reddy, K. P. (1996). Review of hypersonic research investigations in IISc shock tunnel (HST1). Sadhana, 21(6), 741-773.
  2. Jagadeesh, G., Rao, S. B., Nagashetty, K., Reddy, N. M., & Reddy, K. P. J. (1996). A new technique for visualization of shock shapes in hypersonic shock tunnel. Current Science, 71(2), 128-130.