27 citations to 10.1007/s00193-011-0319-x (Crossref Cited-By Service)
  1. P. Georgievskiy, V. A. Levin, O. Sutyrin, 29th International Symposium on Shock Waves 1, 2015, 665  crossref
  2. A. A. Zheltovodov, E. A. Pimonov, “Numerical simulation of an energy deposition zone in quiescent air and in a supersonic flow under the conditions of interaction with a normal shock”, Tech. Phys., 58, № 2, 2013, 170  crossref
  3. Doyle D. Knight, Energy Deposition for High-Speed Flow Control, 2019  crossref
  4. M. E. Renev, Yu. V. Dobrov, V. A. Lashkov, I. Ch. Mashek, “Numerical Analysis of the Dynamics of Air Heating by an Interelectrode Discharge”, Vestnik St.Petersb. Univ.Math., 54, № 4, 2021, 428  crossref
  5. Ya V Khankhasaeva, V E Borisov, A E Lutsky, “Influence of Energy Input on the Flow Past Hypersonic Aircraft X-43”, J. Phys.: Conf. Ser., 815, 2017, 012018  crossref
  6. O. Azarova, “Supersonic Flow Control Using Combined Energy Deposition”, Aerospace, 2, № 1, 2015, 118  crossref
  7. Olga A. Azarova, “Basics of Control of the Bow Shock Wave, Drag and Lift Forces, and Stability in a Steady Supersonic Flow Past an AD Body Using Permanently Operating Thermally Stratified Energy Deposition”, Energies, 15, № 22, 2022, 8627  crossref
  8. O.A. Azarova, D.D. Knight, “An approach of drag force decrease for combined cylinder AD bodies under the action of microwave and laser energy deposition”, Aerospace Science and Technology, 64, 2017, 154  crossref
  9. V. A. Lashkov, A. G. Karpenko, R. S. Khoronzhuk, I. Ch. Mashek, “Effect of Mach number on the efficiency of microwave energy deposition in supersonic flow”, Physics of Plasmas, 23, № 5, 2016, 052305  crossref
  10. R. S. Khoronzhuk, A. G. Karpenko, V. A. Lashkov, D. P. Potapeko, I. Ch. Mashek, “Microwave discharge initiated by double laser spark in a supersonic airflow”, J. Plasma Phys., 81, № 3, 2015, 905810307  crossref
1
2
3
Следующая