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On the breakup of fluid films of finite and infinite extent
Javier A. Diez,
Lou Kondic
Mathematical Sciences
Research output
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Article
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peer-review
75
Scopus citations
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Keyphrases
Numerical Simulation
100%
Free Surface Instability
100%
Dewetting Phenomena
100%
Dewetting
100%
Capillarity
100%
Solid Surface
100%
Nonlinear Partial Differential Equations
100%
Film Thickness
100%
Fluid Film
100%
Semi-infinite
100%
Lubrication Approximation
100%
Linear Stability Analysis
100%
Long Waves
100%
Thick Film
100%
Flat Film
100%
Pinch-off
100%
Quadrupole
100%
Intermolecular Forces
100%
Disjoining Pressure
100%
Thin Fluid Films
100%
Dewetting Process
100%
Single Drop
100%
Unstable Region
100%
Metastable Zone
100%
Pearling Process
100%
Spurious Results
100%
Precise Computation
100%
Stable Region
100%
Pressure Term
100%
Computer Arithmetic
100%
Engineering
Fluid Film
100%
Computer Simulation
50%
Free Surface
50%
Thin Films
50%
Capillarity
50%
Nonlinear Partial Differential Equation
50%
Linear Stability Analysis
50%
Disjoining Pressure
50%
Length (L)
50%
Flat Film
50%
Single Drop
50%
Mathematics
Ridge
100%
Partial Differential Equation
50%
Time Evolution
50%
Numerical Simulation
50%
Free Surface
50%
Linearized Stability
50%
Stability Analysis
50%
Computer Arithmetic
50%
Material Science
Film
100%
Thin Films
16%
Nucleation
16%
Capillarity
16%
Lubrication
16%
Film Thickness
16%
Thick Films
16%