Follow
Silvia Matt
Title
Cited by
Cited by
Year
Surfactant-associated bacteria in the near-surface layer of the ocean
N Kurata, K Vella, B Hamilton, M Shivji, A Soloviev, S Matt, A Tartar, ...
Scientific reports 6 (1), 19123, 2016
782016
Experimental and numerical study of underwater beam propagation in a Rayleigh–Bénard turbulence tank
G Nootz, S Matt, A Kanaev, KP Judd, W Hou
Applied Optics 56 (22), 6065-6072, 2017
512017
Turbulent mixing in the Red Sea outflow plume from a high-resolution nonhydrostatic model
TM Özgökmen, WE Johns, H Peters, S Matt
Journal of Physical Oceanography 33 (8), 1846-1869, 2003
502003
Restoration of images degraded by underwater turbulence using structure tensor oriented image quality (STOIQ) metric
AV Kanaev, W Hou, SR Restaino, S Matt, S Gładysz
Optics express 23 (13), 17077-17090, 2015
392015
Introducing SiTTE: A controlled laboratory setting to study the impact of turbulent fluctuations on light propagation in the underwater environment
S Matt, W Hou, W Goode, S Hellman
Optics Express 25 (5), 5662-5683, 2017
322017
Transport and entrainment in the Red Sea outflow plume
S Matt, WE Johns
Journal of physical oceanography 37 (4), 819-836, 2007
312007
Three-dimensional dynamics of freshwater lenses in the ocean's near-surface layer
AV Soloviev, S Matt, A Fujimura
Oceanography 28 (1), 142-149, 2015
302015
Correction methods for underwater turbulence degraded imaging
AV Kanaev, W Hou, SR Restaino, S Matt, S Gładysz
Remote Sensing of Clouds and the Atmosphere XIX; and Optics in Atmospheric …, 2014
182014
A partial molecular phylogeny of the Eumastacoidea s. lat.(Orthoptera, Caelifera)
S Matt, PK Flook, CHF Rowell
Journal of Orthoptera Research 17 (1), 43-55, 2008
182008
A novel platform to study the effect of small-scale turbulent density fluctuations on underwater imaging in the ocean
S Matt, W Hou, S Woods, W Goode, E Jarosz, A Weidemann
Methods in Oceanography 11, 39-58, 2014
172014
Adaptive optics correction of a laser beam propagating underwater
SR Restaino, W Hou, A Kanaev, S Matt, C Font
Micro-and Nanotechnology Sensors, Systems, and Applications VI 9083, 137-141, 2014
162014
Modification of turbulence at the air-sea interface due to the presence of surfactants and implications for gas exchange. Part I: laboratory experiment
A Soloviev, S Matt, M Gilman, H Huhnerfuss, BK Haus, D Jeong, ...
Kyoto University Press, 2011
162011
Surfactant associated bacteria in the sea surface microlayer: Case studies in the Straits of Florida and the Gulf of Mexico
B Hamilton, C Dean, N Kurata, K Vella, A Soloviev, A Tartar, M Shivji, ...
Canadian Journal of Remote Sensing 41 (2), 135-143, 2015
142015
A miniature fiber-optic sensor for high-resolution and high-speed temperature sensing in ocean environment
G Liu, M Han, W Hou, S Matt, W Goode
Ocean Sensing and Monitoring VII 9459, 80-85, 2015
132015
Air‐sea interface in hurricane conditions
A Soloviev, A Fujimura, S Matt
Journal of Geophysical Research: Oceans 117 (C11), 2012
122012
Modification of turbulence at the air-sea interface due to the presence of surfactants and implications for gas exchange. Part II: Numerical simulations
S Matt, A Fujimara, A Soloviev, SH Rhee
Kyoto University Press, 2011
122011
Propagation of laser beams carrying orbital angular momentum through simulated optical turbulence in Rayleigh-Bénard convection
KP Judd, S Avramov-Zamurovic, S Matt, RA Handler, AT Watnik, ...
Environmental Effects on Light Propagation and Adaptive Systems IV 11860, 20-32, 2021
92021
A controlled laboratory environment to study EO signal degradation due to underwater turbulence
S Matt, W Hou, W Goode, G Liu, M Han, AV Kanaev, S Restaino
Ocean Sensing and Monitoring VII 9459, 70-79, 2015
92015
The impact of turbulent fluctuations on light propagation in a controlled environment
S Matt, W Hou, W Goode
Ocean Sensing and Monitoring VI 9111, 235-245, 2014
92014
Effects of optical turbulence and density gradients on particle image velocimetry
S Matt, G Nootz, S Hellman, W Hou
Scientific Reports 10 (1), 2130, 2020
82020
The system can't perform the operation now. Try again later.
Articles 1–20