Michael Wilczek
Cited by
Cited by
Inferring change points in the spread of COVID-19 reveals the effectiveness of interventions
J Dehning, J Zierenberg, FP Spitzner, M Wibral, JP Neto, M Wilczek, ...
Science, 2020
Large-eddy simulation study of the logarithmic law for second-and higher-order moments in turbulent wall-bounded flow
RJAM Stevens, M Wilczek, C Meneveau
Journal of fluid mechanics 757, 888-907, 2014
On the velocity distribution in homogeneous isotropic turbulence: correlations and deviations from Gaussianity
M Wilczek, A Daitche, R Friedrich
Journal of Fluid Mechanics 676, 191-217, 2011
Inferring COVID-19 spreading rates and potential change points for case number forecasts
J Dehning, J Zierenberg, FP Spitzner, M Wibral, JP Neto, M Wilczek, ...
arXiv preprint arXiv:2004.01105, 2020
Pressure Hessian and viscous contributions to velocity gradient statistics based on Gaussian random fields
M Wilczek, C Meneveau
Journal of Fluid Mechanics 756, 191-225, 2014
Wave-number–frequency spectrum for turbulence from a random sweeping hypothesis with mean flow
M Wilczek, Y Narita
Physical Review E 86 (6), 066308, 2012
Spatio-temporal spectra in the logarithmic layer of wall turbulence: large-eddy simulations and simple models
M Wilczek, RJAM Stevens, C Meneveau
Journal of fluid mechanics 769, 2015
Dynamical origins for non-Gaussian vorticity distributions in turbulent flows
M Wilczek, R Friedrich
Physical Review E 80 (1), 016316, 2009
Dissipation layers in Rayleigh-Bénard convection: A unifying view
K Petschel, S Stellmach, M Wilczek, J Lülff, U Hansen
Physical review letters 110 (11), 114502, 2013
Statistical analysis of global wind dynamics in vigorous Rayleigh-Bénard convection
K Petschel, M Wilczek, M Breuer, R Friedrich, U Hansen
Physical Review E 84 (2), 026309, 2011
The Lundgren–Monin–Novikov hierarchy: kinetic equations for turbulence
R Friedrich, A Daitche, O Kamps, J Lülff, M Voßkuhle, M Wilczek
Comptes Rendus Physique 13 (9-10), 929-953, 2012
The challenges of containing SARS-CoV-2 via test-trace-and-isolate
S Contreras, J Dehning, M Loidolt, J Zierenberg, FP Spitzner, ...
Nature communications 12 (1), 1-13, 2021
Turbulence and turbulent pattern formation in a minimal model for active fluids
M James, WJT Bos, M Wilczek
Physical Review Fluids 3 (6), 061101, 2018
Statistical symmetries of the Lundgren-Monin-Novikov hierarchy
M Wacławczyk, N Staffolani, M Oberlack, A Rosteck, M Wilczek, ...
Physical Review E 90 (1), 013022, 2014
Statistical and numerical investigations of fluid turbulence
M Wilczek
Westfälische Wilhelms-Universität Münster, 2011
A note on Taylor’s hypothesis under large-scale flow variation
M Wilczek, H Xu, Y Narita
Nonlin. Processes Geophys 21, 645-649, 2014
Nonuniversal power-law spectra in turbulent systems
V Bratanov, F Jenko, DR Hatch, M Wilczek
Physical review letters 111 (7), 075001, 2013
Temperature statistics in turbulent Rayleigh–Bénard convection
J Lülff, M Wilczek, R Friedrich
New Journal of Physics 13 (1), 015002, 2011
Lagrangian particle statistics in turbulent flows from a simple vortex model
M Wilczek, F Jenko, R Friedrich
Physical Review E 77 (5), 056301, 2008
Theory for the single-point velocity statistics of fully developed turbulence
M Wilczek, A Daitche, R Friedrich
EPL (Europhysics Letters) 93 (3), 34003, 2011
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