Marco Salvalaglio

© Marco Salvalaglio

Emmy Noether Group Leader

Name

Mr Prof. Dr. Marco Salvalaglio

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Organization Name

Institute of Scientific Computing

Institute of Scientific Computing

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Visiting address:

Bürogebäude Z21, 237 Zellescher Weg 25

01217 Dresden

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work Tel.

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+49 351 463-37096

I'm a theoretical material scientist working at the crossroads between solid-state physics, computational material science and applied mathematics. My research focuses on the modeling and simulation of material properties/evolution and related fields, such as pattern recognition and analysis. I mainly exploit continuum elasticity models, Phase-Field / Phase-Field Crystals models, and Finite Element Method calculations. I'm interested in developing continuum and coarse-grained approaches, able to explain and tailor the outcome of experiments. Since March 2021, I'm leading the Mesoscale Material Modeling & Simulations Group at TU-Dresden, IWR & Dresden Center for Comp. Mat. Sci. (DCMS) funded by the Emmy Noether Programme (DFG).

CV - Short Bio.

Research Interests

• Scale-bridging modeling of physical systems
• Continuum and mesoscale modeling of material properties
• Phase-Field and (Amplitude) Phase-Field Crystal modeling
• Surface diffusion, Dewetting, Heteroepitaxy
• Defects in Crystals and Grain Boundaries
• Pattern formation and analysis, Correlated disorder
• Scientific Computing​

Master Thesis / SHK: Students (m/f/d) who aim at research projects in computational materials science or applied mathematics are always welcome. Possible topics relate to these activities (not restricted to): i) Elasticity in coarse-grained atomistic description (e.g. PFC); ii) Improvements of phase-field (PF) modeling techniques (modeling/numerics aspects); iii) PF simulations of thin films, polycrystals, two-phase systems; iv) Combining PF and Machine learning methods; iv) Properties and inverse design of disordered correlated systems. If interested, please contact me

For Available Positions (e.g. Ph.D.) and/or information on how to join the Mesoscale Material Modeling & Simulations Group see Join us!      

Selected invited talks

• "TBA", International conference on free boundary problems, Berlin (DE), Sept. 2026
• Plenary Talk, "TBA", International Conference Hyperuniformity and Topological Data Analysis, Reisensburg (Ulm, DE), July 2026
• "Disconnection-mediated GB motion and the impact of free surfaces",MRS Spring Meeting 2026, Honolulu (US), April-May 2026
• "Microstructure Evolution in Thin Films: Solid-State Dewetting Scenarios and Tailoring Self-Assembly", TMS Annual Meeting 2026, San Diego (US), March 2026
• "Descriptors for mesoscale modeling and design of microstructures". Workshop Theory and AI for sustainable materials, MPI Sustainable Mater., Düsseldorf (DE), Jan. 2026
• Distinguished Lecture: "Disconnection flow-mediated microstructure evolution", EUROMECH International Colloquium on “Mechanics of Interfaces”, Metz (FR), August 2025
• Keynote: "Integrative approaches to model and tailor material microstructure", MSE Research Data Forum 2025, Siegburg (DE), July 2025

• Topical Talk: "Understanding the impact of disconnection flow on microstructure evolution, Defects of Defects Topical session, DPG Meeting of the Condensed Matter Section , Regensburg (DE), March 2025

• Unveiling local structures in hyperuniform patterns via persistent homology and topological statistics. Hyperuniformity and related topics workshop, Paris (FR), December 2024.

• Microscopically-informed phase field models of grain growth: benchmarks and application.

  CHiMaD Phase Field Methods XVII workshop, Chicago (US), November 2024.

• Tailoring the self-assembly of ordered and hyperuniform nanostructures by solid-state dewetting.NanoSea-2024, Marseille (FR), July 2024.

• Coarse-grained phase field crystal modeling of elasticity and defects. The 5th International Symposium on Phase-Field Modelling in Materials Science, Hangzhou, (CN), May 2024.

• Richard-von-Mises Prize Plenary Lecture 2024: Bridging scales in mechanics: mesoscale modeling of crystalline materials. GAMM Annual Meeting, Magdeburg (DE), March 2024.

• Elasticity and plasticity at the mesoscale by phase field crystal modeling.RAM3: Recent Advances in Mechanics and Mathematics of Materials, Rome (IT), February 2024.

• IOM Colloquium: Tailoring the self-assembly of ordered and correlated-disordered nanostructures by solid-state dewetting: a modeling perspective. Leibnitz Institute of Surface Engineering, Leipzig (DE), May 2023.

• Karlsruher Werkstoffkolloquium: Self-assembly of ordered and correlated-disordered nanostructures by solid-state dewetting.Institute for Applied Materials, KIT, Karlsruhe (DE), May 2023.

• Interface faceting-defaceting mediated by disconnections. EarthFlows workshop '22

  Oslo (NO), June 2022.

• Continuum modeling and simulation of solid-state dewetting. SemiconNano2021, Milano (IT), Sept. 2021.

• Effect of compositional strain and cottrell atmospheres in binary systems by amplitude PFC modeling. SIAM Conference on Mathematical Aspects of Materials Science (MS20), Bilbao (SP), May 2021.

• Oral-Highlight: Closing the gap between atomic-scale lattice deformations and continuum elasticity within the PFC framework. The 4th International Symposium on Phase‑Field Modelling in Materials Science, Bochum (DE), July 2019.

• Crystal growth and morphological evolution of thin films by PF modeling PULSE 2019 - International Conference of GDR PULSE, Clermont-Ferrand (FR), July 2019.

• Complex morphological evolution of thin-films by phase field modeling and simulation.European Material Research Society (E-MRS) Fall Meeting, Warsaw (PL) Sept. 2018.

• Coarse-grained, three-dimensional modeling of defect networks by the amplitude expansion of the PFC model.Particle-based methods in materials science, ICMS Edinburgh (Scotland - UK), July 2018.

• Complex dewetting scenarios of ultra-thin silicon films. DIMAT 2017 - 10th International Conference on Diffusion in Materials, Haifa (IL). May 2017.

Publications

81 Entries

2023

• Controlling Magnetic Anisotropy in Amplitude Expansion of Phase Field Crystal ModelBackofen, R., Salvalaglio, M. & Voigt, A., Sep 2023, In: Advanced engineering materials. 25, 18, 2201564Electronic (full-text) versionResearch output: Contribution to journal > Research article
• Interface faceting–defaceting mediated by disconnectionsQiu, C., Salvalaglio, M., Srolovitz, D. J. & Han, J., 1 Jun 2023, In: Acta Materialia. 251, 118880Electronic (full-text) versionResearch output: Contribution to journal > Research article
• Improved time integration for phase-field crystal models of solidificationPunke, M., Wise, S. M., Voigt, A. & Salvalaglio, M., May 2023, In: Proceedings in Applied Mathematics and Mechanics: PAMM. 23, 1, e202200112Electronic (full-text) versionResearch output: Contribution to journal > Research article
• Amplitude expansion of the phase-field crystal model for complex crystal structuresDonno, M. D., Benoit–Maréchal, L. & Salvalaglio, M., 29 Mar 2023, In: Physical review materials. 7, 3, 033804Electronic (full-text) versionResearch output: Contribution to journal > Research article
• Engineering and detection of light scattering directionalities in dewetted nanoresonators through dark-field scanning microscopyGranchi, N., Fagiani, L., Salvalaglio, M., Barri, C., Ristori, A., Montanari, M., Gurioli, M. & 5 others, 27 Feb 2023, In: Optics Express. 31, 5, p. 9007-9017, 11 p.Electronic (full-text) versionResearch output: Contribution to journal > Research article

2022

• Hydrodynamic phase field crystal approach to interfaces, dislocations, and multi-grain networksSkogvoll, V., Salvalaglio, M. & Angheluta, L., 1 Dec 2022, In: Modelling and simulation in materials science and engineering. 30, 8, 084002Electronic (full-text) versionResearch output: Contribution to journal > Research article
• The elastic inclusion problem in the (amplitude) phase field crystal modelSalvalaglio, M., Chockalingam, K., Voigt, A. & Dörfler, W., Nov 2022, In: Examples and Counterexamples. 2, 100067Electronic (full-text) versionResearch output: Contribution to journal > Research article
• Explicit temperature coupling in phase-field crystal models of solidificationPunke, M., Wise, S. M., Voigt, A. & Salvalaglio, M., Oct 2022, In: Modelling and simulation in materials science and engineering. 30, 7, 18 p., 074004Electronic (full-text) versionResearch output: Contribution to journal > Research article
• A phase field crystal theory of the kinematics of dislocation linesSkogvoll, V., Angheluta, L., Skaugen, A., Salvalaglio, M. & Viñals, J., Sep 2022, In: Journal of the Mechanics and Physics of Solids. 166, 19 p., 104932Electronic (full-text) versionResearch output: Contribution to journal > Research article
• Magnetic APFC modeling and the influence of magneto-structural interactions on grain shrinkageBackofen, R., Salvalaglio, M. & Voigt, A., Sep 2022, In: Modelling and simulation in materials science and engineering. 30, 6, 15 p., 064003Electronic (full-text) versionResearch output: Contribution to journal > Research article

This information is provided by the FIS.

See also: Google Scholar ; ResearchGate; OrcID; Publons 

Teaching

Sommersemester 2025

Modeling Seminar (PDEs, Homogenization, Correlated systems): Course Page in OPAL

Sommersemester 2018-present

Advanced Concepts of Scientific Computing (MATH - CMS). Links: Course Page ('25) in OPAL

Sommersemester 2016

Graduate Lectures on "Continuum modeling of Heteroepitaxy"