Mitul Luhar
Mitul Luhar
Associate Professor, Aerospace and Mechanical Engineering, University of Southern California
Verified email at - Homepage
Cited by
Cited by
Flow‐induced reconfiguration of buoyant and flexible aquatic vegetation
M Luhar, HM Nepf
Limnology and Oceanography 56 (6), 2003-2017, 2011
Interaction between flow, transport and vegetation spatial structure
M Luhar, J Rominger, H Nepf
Environmental Fluid Mechanics 8, 423-439, 2008
From the blade scale to the reach scale: A characterization of aquatic vegetative drag
M Luhar, HM Nepf
Advances in Water Resources 51, 305-316, 2013
Wave‐induced velocities inside a model seagrass bed
M Luhar, S Coutu, E Infantes, S Fox, H Nepf
Journal of Geophysical Research: Oceans 115 (C12), 2010
Wave-induced dynamics of flexible blades
M Luhar, HM Nepf
Journal of Fluids and Structures 61, 20-41, 2016
Effect of a seagrass (Posidonia oceanica) meadow on wave propagation
E Infantes, A Orfila, G Simarro, J Terrados, M Luhar, H Nepf
Marine Ecology Progress Series 456, 63-72, 2012
Opposition control within the resolvent analysis framework
M Luhar, AS Sharma, BJ McKeon
Journal of Fluid Mechanics 749, 597-626, 2014
Seagrass blade motion under waves and its impact on wave decay
M Luhar, E Infantes, H Nepf
Journal of Geophysical Research: Oceans 122 (5), 3736-3752, 2017
A framework for studying the effect of compliant surfaces on wall turbulence
M Luhar, AS Sharma, BJ McKeon
Journal of Fluid Mechanics 768, 415-441, 2015
Field observations of wave‐induced streaming through a submerged seagrass (Posidonia oceanica) meadow
M Luhar, E Infantes, A Orfila, J Terrados, HM Nepf
Journal of Geophysical Research: Oceans 118 (4), 1955-1968, 2013
Bioinspired functional surfaces enabled by multiscale stereolithography
Y Li, H Mao, P Hu, M Hermes, H Lim, J Yoon, M Luhar, Y Chen, W Wu
Advanced Materials Technologies 4 (5), 1800638, 2019
On the structure and origin of pressure fluctuations in wall turbulence: predictions based on the resolvent analysis
M Luhar, AS Sharma, BJ McKeon
Journal of Fluid Mechanics 751, 38-70, 2014
Morphing structure for changing hydrodynamic characteristics of a soft underwater walking robot
M Ishida, D Drotman, B Shih, M Hermes, M Luhar, MT Tolley
IEEE Robotics and Automation Letters 4 (4), 4163-4169, 2019
Microbial alignment in flow changes ocean light climate
Marcos, JR Seymour, M Luhar, WM Durham, JG Mitchell, A Macke, ...
Proceedings of the National Academy of Sciences 108 (10), 3860-3864, 2011
Resolvent analysis for turbulent channel flow with riblets
A Chavarin, M Luhar
AIAA Journal 58 (2), 589-599, 2020
Mean turbulence statistics in boundary layers over high-porosity foams
C Efstathiou, M Luhar
Journal of Fluid Mechanics 841, 351-379, 2018
Assessment of suboptimal control for turbulent skin friction reduction via resolvent analysis
S Nakashima, K Fukagata, M Luhar
Journal of Fluid Mechanics 828, 496-526, 2017
Predicting the response of turbulent channel flow to varying-phase opposition control: resolvent analysis as a tool for flow control design
SS Toedtli, M Luhar, BJ McKeon
Physical Review Fluids 4 (7), 073905, 2019
On the design of optimal compliant walls for turbulence control
M Luhar, AS Sharma, BJ McKeon
Journal of Turbulence 17 (8), 787-806, 2016
On the origin of frequency sparsity in direct numerical simulations of turbulent pipe flow
F Gómez, HM Blackburn, M Rudman, BJ McKeon, M Luhar, R Moarref, ...
Physics of Fluids 26 (10), 2014
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