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Your search keyword '"Anguelova, Magdalena D."' showing total 33 results
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33 results on '"Anguelova, Magdalena D."'

1. Effects of Short Scale Roughness and Wave Breaking Efficiency on Sea Spray Aerosol Production: Multisensor Field Observations

Author

Hwang, Paul A., Savelyev, Ivan B., Means, Steve L., Anguelova, Magdalena D., Schindall, Jeffrey A., Frick, Glendon M., Dowgiallo, David J., and Bobak, Justin P.

Subjects
Physics - Atmospheric and Oceanic Physics
Abstract

Simultaneous measurements of sea spray aerosol (SSA), wind, wave, underwater acoustic noise, and microwave brightness temperature are obtained in the open ocean. These data are analyzed to clarify the ocean surface processes important to SSA production. Parameters are formulated to represent surface processes with characteristic length scales over a broad range, from tens of meters to a few centimeters. The result shows that the correlation coefficients between SSA properties (number, volume and flux) and surface process parameters improve toward the shortest length scale. This suggests that whereas surface wave breaking is a necessary initial and boundary condition, the final state of the atmospheric SSA properties is controlled primarily by turbulent processes characterized by the ocean surface roughness. The investigation also reveals distinct differences of the SSA properties in rising winds and falling winds, with higher efficiency of breaking production in low or falling winds. Previous studies show that the length scale of breaking waves is shorter in mixed seas than in wind seas. Combining the observations together, it is suggestive that larger air cavities are entrained in rising winds (with wind seas more likely). The larger air cavities escape before they can be fully broken down into small bubbles for the subsequent SSA production. In contrast, the shorter breakers in low or falling winds (with mixed seas more likely) trap smaller air cavities that stay underwater longer for more efficient bubble breakup by turbulence.

Published
2019

5. FOAM Emissivity Modelling with Foam Properties Tuned by Frequency and Polarization

Author

Anguelova, Magdalena D., primary, Dinnat, Emmanuel, additional, Kilic, Lise, additional, Bettenhausen, Michael H., additional, English, Stephen, additional, Prigent, Catherine, additional, Meissner, Thomas, additional, Boutin, Jacqueline, additional, Newman, Stuart, additional, Johnson, Ben, additional, Yueh, Simon, additional, Kazumori, Masahiro, additional, Weng, Fuzhong, additional, Stoffelen, Ad, additional, and Accadia, Christophe, additional

Published
2022
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9. Production Mechanisms, Number Concentration, Size Distribution. Chemical Composition, and Optical Properties of Sea Spray Aerosols

Author

Meskhidze, Nicholas, Petters, Markus, Tsigaridis, Kostas, Bates. Tim, O'Dowd, Colin, Reid, Jeff, Lewis, Ernie R, Gantt, Brett, Anguelova, Magdalena D, Bhave, Prakash V, Bird, James, Callaghan, Adrian H, Ceburnis, Darius, Chang, Rachel, Clark, Antony, deLeeuw, Gerrit, Deane, Grant, DeMott, Paul J, Elliot, Scott, Facchini, Maria Cristina, Fairall, Chris W, Hawkins, Lelia, Hu, Yongxiang, and Smirnov, Alexander

Subjects
Oceanography
Abstract

Over forty scientists from six countries convened in Raleigh, NC on June 4-6 2012 to review the status and prospects of sea spray aerosol research. Participants were researchers from the oceanography and atmospheric science communities, including academia, private industry, and government agencies. The recommendations from the working groups are summarized in a science prioritization matrix that is meant to prioritize the research agenda and identify areas of investigation by the magnitude of their impact on proposed science questions. Str

Published
2013
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18. Effects of Salinity on Bubble Cloud Characteristics.

Author

Anguelova, Magdalena D. and Huq, Pablo

Subjects
CLOUDS, SALINE solutions, WATER temperature, SALINITY, SEAWATER salinity
Abstract

A laboratory experiment investigates the influence of salinity on the characteristics of bubble clouds in varying saline solutions. Bubble clouds were generated with a water jet. Salinity, surface tension, and water temperature were monitored. Measured bubble cloud parameters include the number of bubbles, the void fraction, the penetration depth, and the cloud shape. The number of large (above 0.5 mm diameter) bubbles within a cloud increases by a factor of three from fresh to saline water of 20 psu (practical salinity units), and attains a maximum value for salinity of 12-25 psu. The void fraction also has maximum value in the range 12-25 psu. The results thus show that both the number of bubbles and the void fraction vary nonmonotonically with increasing salinity. The lateral shape of the bubble cloud does not change with increasing salinity; however, the lowest point of the cloud penetrates deeper as smaller bubbles are generated. [ABSTRACT FROM AUTHOR]

Published
2018
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20. Effects of Salinity on Surface Lifetime of Large Individual Bubbles.

Author

Anguelova, Magdalena D. and Huq, Pablo

Abstract

The influence of salinity on the characteristics of individual bubbles (2–4 mm in diameter) in fresh and saline water (up to 40 practical salinity units) was investigated. Bubbles were produced by forcing air through capillary tubes. Aqueous solutions in distilled and filtered tap waters with minimized presence of organic additives were used. Salinity, surface tension, and water temperature were monitored. Parameters measured were the bubble surface lifetime, diameter, and rise velocity. The surface lifetime varies widely (in the range of 0.4–35 s) depending on the salinity concentration and the purity of the solutions. Variations with salinity of size and rise velocity of large individual bubbles are discussed. Interpretation of the results in terms of anti-foaming (negative adsorption), as well as the Marangoni and the Gibbs effects, is helpful in understanding the results. [ABSTRACT FROM AUTHOR]

Published
2017
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23. Dielectric and Radiative Properties of Sea Foam at Microwave Frequencies: Conceptual Understanding of Foam Emissivity

Author

NAVAL RESEARCH LAB WASHINGTON DC REMOTE SENSING DIV, Anguelova, Magdalena D, Gaiser, Peter W, NAVAL RESEARCH LAB WASHINGTON DC REMOTE SENSING DIV, Anguelova, Magdalena D, and Gaiser, Peter W

Abstract

Foam fraction can be retrieved from space-based microwave radiometric data at frequencies from 1 to 37 GHz. The retrievals require modeling of ocean surface emissivity fully covered with sea foam. To model foam emissivity well, knowledge of foam properties, both mechanical and dielectric, is necessary because these control the radiative processes in foam. We present a physical description of foam dielectric properties obtained from the foam dielectric constant including foam skin depth; foam impedance; wavelength variations in foam thickness, roughness of foam layer interfaces with air and seawater; and foam scattering parameters such as size parameter, and refraction index. Using these, we analyze the scattering, absorption, reflection and transmission in foam and gain insights into why volume scattering in foam is weak; why the main absorption losses are confined to the wet portion of the foam; how the foam impedance matching provides the transmission of electromagnetic radiation in foam and maximizes the absorption; and what is the potential for surface scattering at the foam layers boundaries. We put all these elements together and offer a conceptual understanding for the high, black-body-like emissivity of foam floating on the sea surface. We also consider possible scattering regimes in foam., Published in Remote Sensing, v4 p1162-1189, 2012.

Published
2012

29. Production flux of sea spray aerosol

Author

de Leeuw, Gerrit, primary, Andreas, Edgar L, additional, Anguelova, Magdalena D., additional, Fairall, C. W., additional, Lewis, Ernie R., additional, O'Dowd, Colin, additional, Schulz, Michael, additional, and Schwartz, Stephen E., additional

Published
2011
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