Author:
Vishnyakov O. I.,Polivanov P. A.,Sidorenko A. A.,Budovsky A. D.
Reference14 articles.
1. P. Doerffer, C. Hirsch, J.-P. Dussauge, H. Babinsky, and G. Barakos, Unsteady effects of shock wave induced separation. N.Y.: Springer Science & Business Media, 2010, Vol. 114.
2. P.A. Polivanov, A.A. Sidorenko, and A.A. Maslov, Correlations study in shock wave/turbulent boundary layer interaction, Techn. Phys. Letters, 2010, Vol. 36, P. 104–107.
3. P.A. Polivanov, A.A. Sidorenko, and A.A. Maslov, The influence of the laminar–turbulent transition on the interaction between the shock wave and boundary layer at a low supersonic Mach number, Techn. Phys. Letters, 2015, Vol. 41, P. 933–937.
4. J.-P. Dussauge, R. Bur, T. Davidson, H. Babinsky, M. Bernardini, S. Pirozzoli, P. Dupont, S. Piponniau, L. Larchevêque, R. Giepman, F. Schrijer, B. Oudheusden, P. Polivanov, A. Sidorenko, D. Szubert, M. Braza, I. Asproulias, N. Simiriotis, J.-B. Tô, Y. Hoarau, A. Sansica, and N. Sandham, Wp-1 reference cases of laminar and turbulent interactions, Transition Location Effect on Shock Wave Boundary Layer Interaction: Experimental and Numerical Findings from the TFAST Project. 2021, Vol. 144, P. 25–127.
5. H. Babinsky, P. Dupont, P. Polivanov, A. Sidorenko, R. Bur, R. Giepman, F. Schrijer, B. Oudheusden, A. Sansica, N. Sandham, M. Bernardini, S. Pirozzoli, T. Kwiatkowski, and J. Sznajder, Wp-2 basic investigation of transition effect, Transition Location Effect on Shock Wave Boundary Layer Interaction: Experimental and Numerical Findings from the TFAST Project. 2021, Vol. 144, P. 129–225.