Marco Salvalaglio

© Marco Salvalaglio

Emmy Noether Nachwuchsgruppenleiter

Name

Herr Prof. Dr. Marco Salvalaglio

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Institut für Wissenschaftliches Rechnen

Institut für Wissenschaftliches Rechnen

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Besuchsadresse:

Bürogebäude Z21, 237 Zellescher Weg 25

01217 Dresden

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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

• 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 a research projects in computational materials science or applied mathematics are always welcome. Possible topics are (not restricted to): i) Elasticity in coarse-grained atomistic description (e.g. PFC); ii) Improvement of phase-field (PF) modeling for surface diffusion (modeling/numerics aspects); iii) PF simulation of solid-state dewetting; iv) Combining PF and Machine learning methods. 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!      

Publications

72 Einträge

2013

• Onset of plastic relaxation in the growth of Ge on Si(001) at low temperatures: Atomic-scale microscopy and dislocation modelingMarzegalli, A., Brunetto, M., Salvalaglio, M., Montalenti, F., Nicotra, G., Scuderi, M., Spinella, C. & 2 weitere, 18 Okt. 2013, in: Physical Review B - Condensed Matter and Materials Physics. 88, 165418, 6 S., 165418Elektronische (Volltext-)VersionPublikation: Beitrag in Fachzeitschrift > Forschungsartikel
• Hydrostatic strain enhancement in laterally confined SiGe nanostripesVanacore, G., Chaigneau, M., Barrett, N., Bollani, M., Boioli, F., Salvalaglio, M., Montalenti, F. & 12 weitere, 20 Sept. 2013, in: Physical Review B - Condensed Matter and Materials Physics. 88, 11, 15 S., 115309Elektronische (Volltext-)VersionPublikation: Beitrag in Fachzeitschrift > Forschungsartikel

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See also: Google Scholar ; ResearchGate; OrcID; Publons  

Teaching

Sommersemester 2024

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

Sommersemester 2018-2023

Advanced Concepts of Scientific Computing

Sommersemester 2016

Graduate Lectures on "Continuum modeling of Heteroepitaxy"