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Linear waves at a surfactant-contaminated interface separating two fluids: Dispersion and dissipation of capillary-gravity waves
Girish K. Rajan,
Diane M. Henderson
Mathematics
Center for Computational Mathematics and Applications (CCMA)
Research output
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Contribution to journal
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Article
›
peer-review
21
Scopus citations
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Dive into the research topics of 'Linear waves at a surfactant-contaminated interface separating two fluids: Dispersion and dissipation of capillary-gravity waves'. Together they form a unique fingerprint.
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Mathematics
Surfactant
95%
Dissipation
65%
Fluid
51%
Contamination
39%
Decay Rate
33%
Ocean
27%
Prediction
17%
Gravity Waves
14%
Dispersion Relation
14%
Transverse
10%
Viscosity
10%
Elasticity
9%
Limiting
8%
Influence
8%
Model
7%
Arbitrary
5%
Physics & Astronomy
gravity waves
79%
surfactants
63%
dissipation
53%
fluids
38%
decay rates
38%
contamination
35%
oceans
28%
capillary waves
17%
predictions
14%
derivation
11%
elastic properties
10%
viscosity
9%
Engineering & Materials Science
Gravity waves
100%
Surface active agents
71%
Fluids
42%
Contamination
31%
Monolayers
14%
Elasticity
10%
Viscosity
8%
Chemical Compounds
Dissipation
71%
Wave
61%
Capillary Wave
11%
Gravity
7%
Wavenumber
6%
Monolayer
4%
Surfactant
4%