| B. Spencer Jr., Hypersonic aerodynamic characteristics of minimum-wave-drag bodies having variations in cross-sectional shape, NASA TN D-4079, 1967. | |
| D. Bivolaru, and S. P. Kuo, Observation of supersonic shock wave mitigation by a plasma aerospike, Physics of Plasmas, Vol.9, No. 2, 2002: 721-723. CrossRef | |
| D. M. Bushnell, Shock wave drag reduction, Annul. Rev. Fluid Mech., 2004.38: 81-96. | |
| K. Oswatitsch, Propulsion with heating at supersonic speed, Deutsche Versuchsanstalt fur Luft und Raumfahrt, Rept.90, Berlin, 1959. | |
| P. K. Tretyakov, V. Fomin, and V. I. Yakovlev, New principle of control of aerophysical process, Proc. International Conference on the Methods of Aerophysical Research, 1996: 210-220. | |
| G. G. Chernyi, The impact of electromagnetic energy addition to air near the flying body on its aerodynamics characteristics, Proceedings of the 2nd Weakly Ionized Gases Workshop, 1998:1-31. | |
| A. A. Zheltovodov, Development of the studies on energy deposition for application to the problems of supersonic aerodynamics, Preprint No. 10-2002, Institute of Theoretical and Applied Mechanics, Russian Academy of Sciences, Siberian Branch, Novosibirsk, 2002. | |
| D. D. Knight, V. Kuchinskiy, A. Kuranov, and E. Sheikin, Survey of aerodynamic flow control at high speed by energy deposition, AIAA Paper, 2003-0525. | |
| V. Fomin, P. Tretyakov, and J. P. Taran, Flow control using various plasma and aerodynamic approaches (shot review), Aerosp. Sci. and Tech., No. 8, 2004: 411-421. | |
| V. A. Levin, V. G. Gromov, and N. E. Afonina, Numerical analysis of the effect of local energy supply on the aerodynamic drag and heat transfer of a spherically blunted body in a supersonic air flow, J. App. Mech. Tech. Phys., Vol. 41, No. 5, 2000: 915-922. | |
| A. A. Zheltovodov, E. A. Pimonov, and D. D. Knight, Energy deposition influence on supersonic flow over axisymmetric bodies, AIAA Paper, 2007-1230. | |
| R. G. Adelgren, G. Elliott, D. D. Knight, A. A. Zheltovodov, and T. Beutner, Energy deposition in supersonic flow, AIAA Paper, 2001-0885. | |
| R. G. Adelgren, H. Yan, G. Elliott, D. D. Knight, T. Beutner, A. A. Zheltovodov, and M. Ivanov, Localized flow control by laser energy deposition applied to Edney IV shock impingement and intersection shocks, AIAA Paper, 2003-0031. | |
| P. K. Tretyakov, A. F. Garanin, G. P. Grachev, V. L. Kraynev, A. G. Ponomarenko, V. N. Tishenko, and V. L. Yakovlev, The supersonic flow control over the bodies with the use of power optical pulsating discharge, Dokladi Academii Nauk (DNA), Vol. 351, No. 3, 1996: 339-340. | |
| P. K. Tretyakov, A. F. Garanin, and V. I. Yakovlev, Investigation of local laser energy release influence on supersonic flow by methods of aerophysical experiments, Proc: International Conference on the Methods of Aerophysical Research, 1996: 200-204. | |
| D. W. Riggins, H. F. Nelson, and E. Johnson, Blunt body wave drag reduction using focused energy deposition, AIAA Paper, 98-27875. | |
| D. W. Riggins, J. T. Barnett, and T. T. Taylor, Drag Reduction and Heat Transfer Mitigation Techniques for Blunt Bodies in Hypersonic Flight, AIAA Paper, 2003-6968. | |
| R. G. Adelgren, H. Yan, G. S. Elliott and D. D. Knight, Drag and total power reduction for artificial heat input in front of hypersonic blunt bodies, AIAA J., Vol. 43, No. 2, 2005: 256-269. | |
| E. Erdem, L. Yang, and K. Kontis, Drag Reduction by Energy Deposition in Hypersonic Flows, AIAA Paper, 2009-7374. | |
| E. Erdem, L. Yang, and K. Kontis, Drag Reduction Studies by Steady Energy Deposition at Mach 5, AIAA Paper, 2011-1027. | |
| T. Sakai, Y. Sekiya, M. Rosli, A. Matsuda, and A. Sasoh, Unsteady interaction of blunt bodies with laser induced plasma in a supersonic Flow, AIAA Paper, 2008-3794. | |
| A. Sasoh, Y. Sekiya, T. Sakai, J. H. Kim and A. Matsuda, Drag reduction of blunt body in a supersonic flow with laser energy depositions, AIAA Paper, 2009-1533. | |
| A. Sasoh, Y. Sekiya, T. Sakai, J. H. Kim, and A. Matsuda, Supersonic drag reduction with repetitive laser pulses through a blunt body, AIAA J., Vlo. 48, No. 12, 2010: 2811-2817. | |
| J. H. Kim, A. Matsuda, T. Sakai, and A. Sasoh, Drag reduction with high-frequency repetitive side-on laser pulse energy depositions, AIAA Paper, 2010-5104. | |
| J. H. Kim, A. Matsuda, T. Sakai and A. Sasoh, Wave drag reduction with acting spike induced by laser-pulse energy depositions, AIAA J., Vol. 49, No. 9, 2011: 2076-2078. | |
| M. Tate, Y. Ogino, and N. Ohnishi, Thermochemical nonequilibrium flow computation of drag reduction by pulsed laser, AIAA Paper, 2010-1535. | |
| K. Kremeyer, Lines of pulsed energy for supersonic/hypersonic drag reduction, AIAA Paper, 2004-984. | |
| K. Kremeyer, K. Sebastian, and C. W. Shu, Computational Study of Shock Mitigation and Drag Reduction by Pulsed Energy Lines, AIAA J., Vol. 44, No. 8, 2006: 1720-1731. | |
| M. S. Holden, and J. R. Moselle, A database of aerothermal measurements in hypersonic flow for CFD validation, AIAA Paper, 92-4023. | |
| A. R. Wieting, and M. S. Holden, Experimental shock-wave interference heating on a cylinder at Mach 6 and 8, AIAA J., Vlo. 27, No. 11, 1989: 1557-1565. | |
| H. Yan, R. G. Adelgren, M. Boguszko, and D. D. Knight, Laser energy deposition in quiescent air, AIAA J., Vlo. 41, No. 10, 2003: 1988-1995. | |
| A. Ambrosio, and A. Wortman, Stagnation point shock detachment distance for flow around spheres and cylinders, ARS J., 32, 1962. |
Parametric Study of Laser Energy Deposition in Mach 8 Bow Shock
Xiaojing YuRelated information
1 School of Power and Energy, Northwestern Polytechnical University, 127 Youyi Xilu, Xi'an, Shaanxi, China 710072
, Hong YanRelated information1 School of Power and Energy, Northwestern Polytechnical University, 127 Youyi Xilu, Xi'an, Shaanxi, China 710072