| SIMSON: a pseudo-spectral solver for incompressible boundary layer flows M Chevalier, P Schlatter, A Lundbladh, DS Henningson | 339 | 2007 |
| A mechanism for bypass transition from localized disturbances in wall-bounded shear flows DS Henningson, A Lundbladh, AV Johansson Journal of Fluid Mechanics 250, 169-207, 1993 | 286 | 1993 |
| Direct simulation of turbulent spots in plane Couette flow A Lundbladh, AV Johansson Journal of Fluid Mechanics 229, 499-516, 1991 | 271 | 1991 |
| Very large structures in plane turbulent Couette flow J Komminaho, A Lundbladh, AV Johansson Journal of Fluid Mechanics 320, 259-285, 1996 | 252 | 1996 |
| Bounds for threshold amplitudes in subcritical shear flows G Kreiss, A Lundbladh, DS Henningson Journal of Fluid Mechanics 270, 175-198, 1994 | 118 | 1994 |
| An efficient spectral method for simulation of incompressible flow over a flat plate A Lundbladh, S Berlin, M Skote, C Hildings, J Choi, J Kim, ... | 115 | 1999 |
| An efficient spectral integration method for the solution of the Navier-Stokes equations A Lundbladh, DS Henningson, AV Johansson NASA STI/Recon Technical Report N 93, 29009, 1992 | 115 | 1992 |
| Spatial simulations of oblique transition in a boundary layer S Berlin, A Lundbladh, D Henningson Physics of Fluids 6 (6), 1949-1951, 1994 | 102 | 1994 |
| Threshold amplitudes for transition in channel flows A Lundbladh, DS Henningson, SC Reddy Transition, Turbulence and Combustion: Volume I Transition, 309-318, 1994 | 73 | 1994 |
| The efficiency of a pulsed detonation combustor–axial turbine integration C Xisto, O Petit, T Grönstedt, A Rolt, A Lundbladh, G Paniagua Aerospace Science and Technology 82, 80-91, 2018 | 69 | 2018 |
| Composite cycle engine concept with hectopressure ratio S Kaiser, A Seitz, S Donnerhack, A Lundbladh Journal of Propulsion and Power 32 (6), 1413-1421, 2016 | 58 | 2016 |
| Ultra low emission technology innovations for mid-century aircraft turbine engines T Grönstedt, C Xisto, V Sethi, A Rolt, N García Rosa, A Seitz, K Yakinthos, ... Turbo Expo: Power for Land, Sea, and Air 49743, V003T06A001, 2016 | 58 | 2016 |
| First and second law analysis of future aircraft engines T Grönstedt, M Irannezhad, X Lei, O Thulin, A Lundbladh Journal of Engineering for Gas Turbines and Power 136 (3), 031202, 2014 | 56 | 2014 |
| Heat exchanger weight and efficiency impact on jet engine transport applications A Lundbladh, A Sjunnesson The 16th International Symposium on Air Breathing Engines, Cleveland, Ohio …, 2003 | 53 | 2003 |
| A knowledge-based master model approach exemplified with jet engine structural design M Sandberg, I Tyapin, M Kokkolaras, A Lundbladh, O Isaksson Computers in Industry 85, 31-38, 2017 | 47 | 2017 |
| Simulation of bypass transition in spatially evolving flows A Lundbladh, PJ Schmid, S Berlin, DS Henningson Proceedings of the AGARD Symposium on Application of Direct and Large Eddy …, 1994 | 38 | 1994 |
| Lemcotec: Improving the core-engine thermal efficiency R von der Bank, S Donnerhack, A Rae, M Cazalens, A Lundbladh, ... Turbo Expo: Power for Land, Sea, and Air 45578, V01AT01A001, 2014 | 32 | 2014 |
| Distributed propulsion and turbofan scale effects A Lundbladh, T Grönstedt ISABE 2005, 17th Symposium on Airbreathing Engine, 2005 | 32 | 2005 |
| Analytical model for the performance estimation of pre-cooled pulse detonation turbofan engines C Xisto, F Ali, O Petit, T Grönstedt, A Rolt, A Lundbladh Turbo Expo: Power for Land, Sea, and Air 50770, V001T01A016, 2017 | 27 | 2017 |
| Assessment of CO2 and NOx Emissions in Intercooled Pulsed Detonation Turbofan Engines C Xisto, O Petit, T Grönstedt, A Lundbladh Journal of Engineering for Gas Turbines and Power 141 (1), 011016, 2019 | 25 | 2019 |
