Marco Salvalaglio
Inhaltsverzeichnis
Emmy Noether Nachwuchsgruppenleiter
NameHerr Prof. Dr. Marco Salvalaglio
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Institut für Wissenschaftliches Rechnen
Institut für Wissenschaftliches Rechnen
Besuchsadresse:
Bürogebäude Z21, 237 Zellescher Weg 25
01217 Dresden
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.
2024 | Professorship (apl) of Computational Materials Science |
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2024 | Richard von Mises Prize - GAMM |
2023 | Fellowship of the Young Academy of Europe |
2023 | MSMSE Emerging Leader - Award Winner |
from 2021 |
Group Leader - Emmy Noether Programme Mesoscale Material Modeling & Simulations Group TU-Dresden, IWR & Dresden Center for Comp. Mat. Sci. (DCMS) |
2021 | TU-Dresden Young Investigator |
2018 - 2020 | Postdoctoral Fellow at TU-Dresden, IWR |
2020 |
Abilitazione Scientifica Nazionale (Italian Habilitation) as Associate Professor in Theoretical Condensed-Matter Physics (02/B2) |
2019 |
Junior Visiting Fellow at Hong Kong Institute for Advanced Studies & Visiting Researcher at MSE Dept. - CityU Hong Kong |
2019 | Visiting Fellow at Aalto University (Dept. of Applied Physics) |
2016 - 2018 |
Alexander von Humboldt (Avh) Postdoctoral Research Fellowship: AvH Fellow at TU-Dresden, IWR & Guest Scientist at the Materials Research Department of IHP-Microelectronics |
2016 | Ph.D. Materials Science - University of Milano-Bicocca |
2012 | M.Sc. Physics - University of Milano-Bicocca |
2010 | B.Sc. Physics - University of Milano-Bicocca |
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
2023
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Amplitude phase‐field crystal model for the hexagonal close‐packed lattice , Sept. 2023, in: PAMM. 23, 2, e202300182Elektronische (Volltext-)VersionPublikation: Beitrag in Fachzeitschrift > Forschungsartikel
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Controlling Magnetic Anisotropy in Amplitude Expansion of Phase Field Crystal Model , Sept. 2023, in: Advanced engineering materials. 25, 18, 2201564Elektronische (Volltext-)VersionPublikation: Beitrag in Fachzeitschrift > Forschungsartikel
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Interface faceting–defaceting mediated by disconnections , 1 Juni 2023, in: Acta Materialia. 251, 118880Elektronische (Volltext-)VersionPublikation: Beitrag in Fachzeitschrift > Forschungsartikel
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Improved time integration for phase-field crystal models of solidification , Mai 2023, in: PAMM. 23, 1, e202200112Elektronische (Volltext-)VersionPublikation: Beitrag in Fachzeitschrift > Forschungsartikel
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Amplitude expansion of the phase-field crystal model for complex crystal structures , 29 März 2023, in: Physical review materials. 7, 3, 033804Elektronische (Volltext-)VersionPublikation: Beitrag in Fachzeitschrift > Forschungsartikel
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Engineering and detection of light scattering directionalities in dewetted nanoresonators through dark-field scanning microscopy , 27 Feb. 2023, in: Optics Express. 31, 5, S. 9007-9017, 11 S.Elektronische (Volltext-)VersionPublikation: Beitrag in Fachzeitschrift > Forschungsartikel
2022
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Hydrodynamic phase field crystal approach to interfaces, dislocations, and multi-grain networks , 1 Dez. 2022, in: Modelling and simulation in materials science and engineering. 30, 8, 084002Elektronische (Volltext-)VersionPublikation: Beitrag in Fachzeitschrift > Forschungsartikel
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Explicit temperature coupling in phase-field crystal models of solidification , Okt. 2022, in: Modelling and simulation in materials science and engineering. 30, 7, 18 S., 074004Elektronische (Volltext-)VersionPublikation: Beitrag in Fachzeitschrift > Forschungsartikel
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A phase field crystal theory of the kinematics of dislocation lines , Sept. 2022, in: Journal of the Mechanics and Physics of Solids. 166, 19 S., 104932Elektronische (Volltext-)VersionPublikation: Beitrag in Fachzeitschrift > Forschungsartikel
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Magnetic APFC modeling and the influence of magneto-structural interactions on grain shrinkage , Sept. 2022, in: Modelling and simulation in materials science and engineering. 30, 6, 15 S., 064003Elektronische (Volltext-)VersionPublikation: Beitrag in Fachzeitschrift > Forschungsartikel
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"