- Enhanced stability of a dewetting thin liquid film in a single-frequency vibration field S. Shklyaev,1
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- Tailoring of crystal surface morphology by induced spatiotemporal oscillations of temperature Department of Mathematics, State University of New York at Buffalo, Buffalo, New York 14260, USA
- Oscillatory and monotonic modes of long-wave Marangoni convection in a thin film S. Shklyaev,1,2
- Lubrication approximation-based model and computations of pulsed laser induced
- Thermocapillary effects in driven dewetting and self assembly of pulsed-laser-irradiated metallic films
- Math. Model. Nat. Phenom. Vol. 3, No. 5, 2008, pp. 16-29
- Influence of pulsed laser heating on morphological relaxation of surface ripples Department of Mathematics, State University of New York at Buffalo, Buffalo, New York 14260, USA
- Influence of a longitudinal and tilted vibration on stability and dewetting of a liquid film S. Shklyaev,1
- A tangent-plane marker-particle method for the computation of three-dimensional solid surfaces evolving by surface
- Dewetting of an ultrathin solid film on a lattice-matched or amorphous substrate Department of Mathematics, State University of New York at Buffalo, Buffalo, New York 14260, USA
- Formation of organized nanostructures from unstable bilayers of thin metallic liquids
- Enhancement of epitaxial lateral overgrowth by vapor-phase diffusion
- Self-organized multifunctional nanoparticle arrays from pulsed laser induced dewetting in thin metallic films have the potential for
- January 2011 EPL, 93 (2011) 26001 www.epljournal.org
- Electromigration drift velocity in Cu interconnects modeled with the level set method
- Stability analysis of pulsed laser-melted bilayer thin Mikhail Khenner
- This paper presents the model for pattern formation in the course of thermodynamically stable and unstable crystal growth from vapor phase, which is in uenced by rapid spatio-
- Morphologies and kinetics of a dewetting ultrathin solid film Department of Mathematics, State University of New York at Buffalo, Buffalo, New York 14260, USA
- (Morphology = Shape) Morphological evolution of single-crystal ultrathin
