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Salvalaglio, Marco
TU Dresden
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (31/31 displayed)
- 2022Controlling magnetic anisotropy in amplitude expansion of phase field crystal model
- 2021Scalable Disordered Hyperuniform Architectures via Nanoimprint Lithography of Metal Oxidescitations
- 2021Doubly degenerate diffuse interface models of anisotropic surface diffusioncitations
- 2021Doubly degenerate diffuse interface models of surface diffusioncitations
- 2020Hyperuniform monocrystalline structures by spinodal solid-state dewettingcitations
- 2020Self-assembly of nanovoids in Si microcrystals epitaxially grown on deeply patterned substratescitations
- 2020Hyperuniform Monocrystalline Structures by Spinodal Solid-State Dewettingcitations
- 2019CONVEXITY SPLITTING IN A PHASE FIELD MODEL FOR SURFACE DIFFUSION
- 2019Deterministic 3D self-assembly of Si through a rim-less and topology-preserving dewetting regime
- 2019Closing the gap between atomic-scale lattice deformations and continuum elasticitycitations
- 2019Deterministic three-dimensional self-assembly of Si through a rimless and topology-preserving dewetting regimecitations
- 2018Morphological evolution of Ge/Si nano-strips driven by Rayleigh-like instabilitycitations
- 2017Controlling the energy of defects and interfaces in the amplitude expansion of the phase-field crystal modelcitations
- 2017Strain Engineering in Highly Mismatched SiGe/Si Heterostructurescitations
- 2017Fully coherent Ge islands growth on Si nano-pillars by selective epitaxycitations
- 2017Complex dewetting scenarios of ultrathin silicon films for large-scale nanoarchitecturescitations
- 2017Phase-field simulations of faceted Ge/Si-crystal arrays, merging into a suspended filmcitations
- 2017Strain engineering in highly mismatched SiGe/Si heterostructurescitations
- 2016Thin-film growth dynamics with shadowing effects by a phase-field approachcitations
- 2016Temperature-controlled coalescence during the growth of Ge crystals on deeply patterned Si substratescitations
- 2016Temperature-controlled coalescence during the growth of Ge crystals on deeply patterned Si substratescitations
- 2016Elastic and Plastic Stress Relaxation in Highly Mismatched SiGe/Si Crystalscitations
- 2016Reduced-Pressure Chemical Vapor Deposition Growth of Isolated Ge Crystals and Suspended Layers on Micrometric Si Pillarscitations
- 2016Elastic and plastic stress relaxation in highly mismatched SiGe/Si crystalscitations
- 2016From plastic to elastic stress relaxation in highly mismatched SiGe/Si heterostructurescitations
- 2016From plastic to elastic stress relaxation in highly mismatched SiGe/Si heterostructurescitations
- 2015Engineered coalescence by annealing 3D Ge microstructures into high-quality suspended layers on Sicitations
- 2015Continuum modeling of heteroepitaxial growth: elastic relaxation, surface-energy minimization, misfit dislocations and intermixing
- 2015Faceting of equilibrium and metastable nanostructures: a Phase-Field model of surface diffusion tackling realistic shapescitations
- 2015Engineered coalescence of three-dimensional Ge microcrystals into high-quality suspended layers on Si pillars
- 2015Engineered Coalescence by Annealing 3D Ge Microstructures into High-Quality Suspended Layers on Sicitations
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article
CONVEXITY SPLITTING IN A PHASE FIELD MODEL FOR SURFACE DIFFUSION
Abstract
<p>Convexity splitting like schemes with improved accuracy are proposed for a phase field model for surface diffusion. The schemes are developed to enable large scale simulations in three spatial dimensions describing experimentally observed solid state dewetting phenomena. We carefully elaborate the loss in accuracy associated with large time steps in such schemes and show the existence of a maximal numerical timestep to achieve a prescribed accuracy. We demonstrate the increase of this maximal numerical time step by at least one order of magnitude using a Rosenbrock method. This convexity splitting scheme with improved accuracy is used to study the effect of contact angle on solid state dewetting phenomena.</p>