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Alberto de Lozar
Alberto de Lozar
Deutscher Wetterdiesnt
Verified email at dwd.de
Title
Cited by
Cited by
Year
The onset of turbulence in pipe flow
K Avila, D Moxey, A De Lozar, M Avila, D Barkley, B Hof
Science 333 (6039), 192-196, 2011
7422011
Repeller or attractor? Selecting the dynamical model for the onset of turbulence in pipe flow
B Hof, A De Lozar, DJ Kuik, J Westerweel
Physical review letters 101 (21), 214501, 2008
1702008
Eliminating turbulence in spatially intermittent flows
B Hof, A De Lozar, M Avila, X Tu, TM Schneider
science 327 (5972), 1491-1494, 2010
1412010
Edge state in pipe flow experiments
A De Lozar, F Mellibovsky, M Avila, B Hof
Physical review letters 108 (21), 214502, 2012
682012
The steady propagation of an air finger into a rectangular tube
A De Lozar, A Juel, AL Hazel
Journal of fluid Mechanics 614, 173-195, 2008
572008
Scaling laws for the heterogeneously heated free convective boundary layer
CC Van Heerwaarden, JP Mellado, A De Lozar
Journal of the Atmospheric Sciences 71 (11), 3975-4000, 2014
532014
Experimental investigation of laminar turbulent intermittency in pipe flow
D Samanta, A De Lozar, B Hof
Journal of fluid mechanics 681, 193-204, 2011
522011
An experimental study of the decay of turbulent puffs in pipe flow
A De Lozar, B Hof
Philosophical Transactions of the Royal Society A: Mathematical, Physical†…, 2009
422009
Scaling properties of coating flows in rectangular channels
A de Lozar, AL Hazel, A Juel
Physical review letters 99 (23), 234501, 2007
412007
Mixing driven by radiative and evaporative cooling at the stratocumulus top
A de Lozar, JP Mellado
Journal of the Atmospheric Sciences 72 (12), 4681-4700, 2015
392015
Arctic low-level boundary layer clouds: in situ measurements and simulations of mono-and bimodal supercooled droplet size distributions at the top layer of liquid phase clouds
M Klingebiel, A de Lozar, S Molleker, R Weigel, A Roth, L Schmidt, ...
Atmospheric Chemistry and Physics 15 (2), 617-631, 2015
392015
Representation of model error in convective‐scale data assimilation: additive noise, relaxation methods, and combinations
Y Zeng, T Janjić, A de Lozar, U Blahak, H Reich, C Keil, A Seifert
Journal of Advances in Modeling Earth Systems 10 (11), 2889-2911, 2018
282018
Tube geometry can force switchlike transitions in the behavior of propagating bubbles
A de Lůzar, A Heap, F Box, AL Hazel, A Juel
Physics of Fluids 21 (10), 101702, 2009
272009
Direct numerical simulations of a smoke cloud–top mixing layer as a model for stratocumuli
A de Lozar, JP Mellado
Journal of the atmospheric sciences 70 (8), 2356-2375, 2013
252013
Transformation from walls to disclination lines: Statics and dynamics of the pincement transition
A de Lůzar, W SchŲpf, I Rehberg, D Svenšek, L Kramer
Physical Review E 72 (5), 051713, 2005
252005
Cloud droplets in a bulk formulation and its application to buoyancy reversal instability
A de Lozar, JP Mellado
Quarterly Journal of the Royal Meteorological Society 140 (682), 1493-1504, 2014
192014
Reduction of the entrainment velocity by cloud droplet sedimentation in stratocumulus
A de Lozar, JP Mellado
Journal of the Atmospheric Sciences 74 (3), 751-765, 2017
182017
Representation of model error in convective‐scale data assimilation: Additive noise based on model truncation error
Y Zeng, T Janjić, M Sommer, A de Lozar, U Blahak, A Seifert
Journal of Advances in Modeling Earth Systems 11 (3), 752-770, 2019
162019
Long-resident droplets at the stratocumulus top
A de Lozar, L Muessle
Atmospheric Chemistry and Physics 16 (10), 6563-6576, 2016
162016
Evaporative cooling amplification of the entrainment velocity in radiatively driven stratocumulus
A de Lozar, JP Mellado
Geophysical Research Letters 42 (17), 7223-7229, 2015
152015
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