Modelling aerosol transport and virus exposure with numerical simulations in relation to SARS-CoV-2 transmission by inhalation indoors V Vuorinen, M Aarnio, M Alava, V Alopaeus, N Atanasova, M Auvinen, ... Safety science 130, 104866, 2020 | 460 | 2020 |
Capabilities and performance of Elmer/Ice, a new-generation ice sheet model O Gagliardini, T Zwinger, F Gillet-Chaulet, G Durand, L Favier, ... Geoscientific Model Development 6 (4), 1299-1318, 2013 | 255 | 2013 |
Finite‐element modeling of subglacial cavities and related friction law O Gagliardini, D Cohen, P Råback, T Zwinger Journal of Geophysical Research: Earth Surface 112 (F2), 2007 | 222 | 2007 |
Finite‐element modeling of subglacial cavities and related friction law O Gagliardini, D Cohen, P Råback, T Zwinger Journal of Geophysical Research: Earth Surface 112 (F2), 2007 | 221 | 2007 |
Capabilities and performance of Elmer/Ice, a newgeneration ice sheet model, Geosci. Model Dev., 6, 1299–1318 O Gagliardini, T Zwinger, F Gillet-Chaulet, G Durand, L Favier, ... | 162 | 2013 |
Extending the validity of squeezed-film damper models with elongations of surface dimensions T Veijola, A Pursula, P Råback Journal of Micromechanics and Microengineering 15 (9), 1624, 2005 | 104 | 2005 |
Extending the validity of squeezed-film damper models with elongations of surface dimensions T Veijola, A Pursula, P Råback Journal of Micromechanics and Microengineering 15 (9), 1624, 2005 | 104 | 2005 |
Elmer models manual P Råback, M Malinen, J Ruokolainen, A Pursula, T Zwinger CSC–IT Center for Science, Helsinki, Finland, 2013 | 94 | 2013 |
A full‐Stokes 3‐D calving model applied to a large Greenlandic glacier J Todd, P Christoffersen, T Zwinger, P Råback, N Chauché, D Benn, ... Journal of Geophysical Research: Earth Surface 123 (3), 410-432, 2018 | 79 | 2018 |
A finite element method for the modeling of thermo-viscous effects in acoustics M Malinen, M Lyly, P Råback, A Kärkkäinen, L Kärkkäinen Proceedings of the European Congress on Computational Methods in Applied …, 2004 | 70 | 2004 |
Fluid-structure interaction boundary conditions by artificial compressibility P Raback, J Ruokolainen, M Lyly, E Järvinen ECCOMAS CFD 2001, 2001 | 64 | 2001 |
Elmer finite element solver for multiphysics and multiscale problems M Malinen, P Råback Multiscale Model. Methods Appl. Mater. Sci. 19, 101-113, 2013 | 61 | 2013 |
A double continuum hydrological model for glacier applications B De Fleurian, O Gagliardini, T Zwinger, G Durand, E Le Meur, D Mair, ... The Cryosphere 8 (1), 137-153, 2014 | 60 | 2014 |
Numerical modelling of convection interacting with a melting and solidification front: Application to the thermal evolution of the basal magma ocean M Ulvrová, S Labrosse, N Coltice, P Råback, PJ Tackley Physics of the Earth and Planetary Interiors 206, 51-66, 2012 | 54 | 2012 |
Device and method for producing single crystals by vapor deposition E Janzén, P Råback, A Ellison US Patent 7,361,222, 2008 | 53 | 2008 |
Elmersolver manual J Ruokolainen, M Malinen, P Råback, T Zwinger, A Pursula, M Byckling CSC–IT center for science, 2016 | 47 | 2016 |
Methods for solving gas damping problems in perforated microstructures using a 2D finite-element solver T Veijola, P Råback Sensors 7 (7), 1069-1090, 2007 | 43 | 2007 |
A method for partitioned fluid–structure interaction computation of flow in arteries E Järvinen, P Råback, M Lyly, JP Salenius Medical engineering & physics 30 (7), 917-923, 2008 | 42 | 2008 |
EOF-Library: Open-source Elmer FEM and OpenFOAM coupler for electromagnetics and fluid dynamics J Vencels, P Råback, V Geža SoftwareX 9, 68-72, 2019 | 41 | 2019 |
Modeling of the sublimation growth of silicon carbide crystals P Råback Center for Scientific Computing, 1999 | 39 | 1999 |