| Why do particle clouds generate electric charges? T Pähtz, HJ Herrmann, T Shinbrot Nature Physics 6 (5), 364-368, 2010 | 202 | 2010 |
| The physics of sediment transport initiation, cessation, and entrainment across aeolian and fluvial environments T Pähtz, AH Clark, M Valyrakis, O Durán Reviews of Geophysics 58 (1), e2019RG000679, 2020 | 150 | 2020 |
| Flux Saturation Length of Sediment Transport T Pähtz, JF Kok, EJR Parteli, HJ Herrmann Physical Review Letters 111 (21), 218002, 2013 | 80 | 2013 |
| Midair Collisions Enhance Saltation MV Carneiro, NAM Araújo, T Pähtz, HJ Herrmann Physical Review Letters 111 (5), 058001, 2013 | 80 | 2013 |
| The apparent roughness of a sand surface blown by wind from an analytical model of saltation T Pähtz, JF Kok, HJ Herrmann New Journal of Physics 14, 043035, 2012 | 80 | 2012 |
| Electric Field and Humidity Trigger Contact Electrification Y Zhang, T Pähtz, Y Liu, X Wang, R Zhang, Y Shen, R Ji, B Cai Physical Review X 5 (1), 011002, 2015 | 70 | 2015 |
| Jump at the Onset of Saltation MV Carneiro, T Pähtz, HJ Herrmann Physical Review Letters 107 (9), 098001, 2011 | 63 | 2011 |
| Unification of Aeolian and Fluvial Sediment Transport Rate from Granular Physics T Pähtz, O Durán Physical Review Letters 124 (16), 168001, 2020 | 59 | 2020 |
| The Cessation Threshold of Nonsuspended Sediment Transport Across Aeolian and Fluvial Environments T Pähtz, O Durán Journal of Geophysical Research: Earth Surface 123 (8), 1638-1666, 2018 | 56 | 2018 |
| Fluid forces or impacts: What governs the entrainment of soil particles in sediment transport mediated by a Newtonian fluid? T Pähtz, O Durán Physical Review Fluids 2 (7), 074303, 2017 | 45 | 2017 |
| Local Rheology Relation with Variable Yield Stress Ratio across Dry, Wet, Dense, and Dilute Granular Flows T Pähtz, O Durán, DN de Klerk, I Govender, M Trulsson Physical Review Letters 123 (4), 048001, 2019 | 41 | 2019 |
| Analytical model for flux saturation in sediment transport T Pähtz, EJR Parteli, JF Kok, HJ Herrmann Physical Review E 89 (5), 052213, 2014 | 39 | 2014 |
| The Critical Role of the Boundary Layer Thickness for the Initiation of Aeolian Sediment Transport T Pähtz, M Valyrakis, XH Zhao, ZS Li Geosciences 8 (9), 314, 2018 | 36 | 2018 |
| Universal friction law at granular solid-gas transition explains scaling of sediment transport load with excess fluid shear stress T Pähtz, O Durán Physical Review Fluids 3 (10), 104302, 2018 | 31 | 2018 |
| Unified model of sediment transport threshold and rate across weak and intense subaqueous bedload, windblown sand, and windblown snow T Pähtz, Y Liu, Y Xia, P Hu, Z He, K Tholen Journal of Geophysical Research: Earth Surface 126 (4), e2020JF005859, 2021 | 30 | 2021 |
| The effect of turbulence on drifting snow sublimation Z Wang, N Huang, T Pähtz Geophysical Research Letters 46 (20), 11568-11575, 2019 | 30 | 2019 |
| Discrete Element Method simulations of the saturation of aeolian sand transport T Pähtz, A Omeradžić, MV Carneiro, NAM Araújo, HJ Herrmann Geophysical Research Letters 42 (6), 2063–2070, 2015 | 30 | 2015 |
| Well-balanced and flexible morphological modeling of swash hydrodynamics and sediment transport P Hu, W Li, Z He, T Pähtz, Z Yue Coastal Engineering 96, 27–37, 2015 | 24 | 2015 |
| Megaripple mechanics: bimodal transport ingrained in bimodal sands K Tholen, T Pähtz, H Yizhaq, I Katra, K Kroy Nature Communications 13 (1), 162, 2022 | 23 | 2022 |
| Is it appropriate to model turbidity currents with the three-equation model? P Hu, T Pähtz, Z He Journal of Geophysical Research: Earth Surface 120 (7), 1153-1170, 2015 | 22 | 2015 |
Orencio Duran VinentAssistant Professor, Texas A&M University, Department of Ocean EngineeringAdresse e-mail validée de tamu.edu