| Transition to the Ultimate Regime in Two-Dimensional Rayleigh-Bénard Convection X Zhu, V Mathai, RJAM Stevens, R Verzicco, D Lohse Physical review letters 120 (14), 144502, 2018 | 140 | 2018 |
| Turbulent thermal superstructures in Rayleigh-Bénard convection RJAM Stevens, A Blass, X Zhu, R Verzicco, D Lohse Physical review fluids 3, 041501(R), 2018 | 121 | 2018 |
| Roughness-facilitated local 1/2 scaling does not imply the onset of the ultimate regime of thermal convection X Zhu, RJAM Stevens, R Verzicco, D Lohse Physical review letters 119 (15), 154501, 2017 | 115 | 2017 |
| Flow-mediated interactions between two self-propelled flapping filaments in tandem configuration X Zhu, G He, X Zhang Physical Review Letters 113 (23), 238105, 2014 | 114 | 2014 |
| Numerical study on hydrodynamic effect of flexibility in a self-propelled plunging foil X Zhu, G He, X Zhang Computers & Fluids 97, 1-20, 2014 | 96 | 2014 |
| AFiD-GPU: a versatile Navier-Stokes Solver for Wall-Bounded Turbulent Flows on GPU Clusters X Zhu, E Phillips, V Spandan, J Donners, G Ruetsch, J Romero, ... Computer physics communications, 2018 | 91 | 2018 |
| How flexibility affects the wake symmetry properties of a self-propelled plunging foil X Zhu, G He, X Zhang Journal of fluid mechanics 751, 164-183, 2014 | 90 | 2014 |
| Scaling enabled by multiscale wall roughness in Rayleigh–Bénard turbulence X Zhu, RJAM Stevens, O Shishkina, R Verzicco, D Lohse Journal of fluid mechanics 869, R4, 2019 | 72 | 2019 |
| Controlling heat transport and flow structures in thermal turbulence using ratchet surfaces H Jiang, X Zhu, V Mathai, R Verzicco, D Lohse, C Sun Physical review letters 120 (4), 044501, 2018 | 65 | 2018 |
| Wall roughness induces asymptotic ultimate turbulence X Zhu, RA Verschoof, D Bakhuis, SG Huisman, R Verzicco, C Sun, ... Nature physics 14, 417-423, 2018 | 56 | 2018 |
| Diffusive interaction of multiple surface nanobubbles: shrinkage, growth, and coarsening X Zhu, R Verzicco, X Zhang, D Lohse Soft Matter 14 (11), 2006-2014, 2018 | 56 | 2018 |
| Universal nanodroplet branches from confining the Ouzo effect Z Lu, MHK Schaarsberg, X Zhu, LY Yeo, D Lohse, X Zhang Proceedings of the National Academy of Sciences 114 (39), 10332-10337, 2017 | 54 | 2017 |
| Direct numerical simulation of Taylor–Couette flow with grooved walls: torque scaling and flow structure X Zhu, R Ostilla-Mónico, R Verzicco, D Lohse Journal of Fluid Mechanics 794, 746-774, 2016 | 54 | 2016 |
| Flow organization and heat transfer in turbulent wall sheared thermal convection A Blass, X Zhu, R Verzicco, D Lohse, RJAM Stevens Journal of fluid mechanics 897, A22, 2020 | 48 | 2020 |
| Experimental investigation of heat transport in homogeneous bubbly flow B Gvozdić, E Alméras, V Mathai, X Zhu, DPM van Gils, R Verzicco, ... Journal of fluid mechanics 845, 226-244, 2018 | 48 | 2018 |
| From Rayleigh–Bénard convection to porous-media convection: how porosity affects heat transfer and flow structure S Liu, L Jiang, KL Chong, X Zhu, ZH Wan, R Verzicco, RJAM Stevens, ... Journal of fluid mechanics 895, A18, 2020 | 45 | 2020 |
| Supergravitational turbulent thermal convection H Jiang*, X Zhu*, D Wang, SG Huisman, C Sun Science Advances 6 (40), eabb8676, 2020 | 44 | 2020 |
| Flutter to tumble transition of buoyant spheres triggered by rotational inertia changes V Mathai*, X Zhu*, C Sun, D Lohse Nature communications 9 (1), 1792, 2018 | 38 | 2018 |
| Mass and moment of inertia govern the transition in the dynamics and wakes of freely rising and falling cylinders V Mathai*, X Zhu*, C Sun, D Lohse Physical review letters 119 (5), 054501, 2017 | 30 | 2017 |
| An improved direct-forcing immersed boundary method for fluid-structure interaction simulations X Zhu, G He, X Zhang Journal of Fluids Engineering 136 (4), 040903, 2014 | 28 | 2014 |
Detlef LohsePhysics of Fluids, University of Twente在 utwente.nl 的电子邮件经过验证
