About
Hi there! I am a current postdoc at MIT working on heat transfer estimation procedures for spatial temporal multiscale problems. During my PhD, I developed reduced order models for the efficient solution of non-linear solid mechanics with applications to mechanical metamaterials. My thesis can be downloaded here.
My CV can be found here.
You can find a portfolio of my work here.
Keywords: conjugate heat transfer, incompressible flows, nonlinear solid mechanics, thermomechanics, reduced order modeling, machine learning, multiscale modeling, numerical methods for PDEs, metamaterials, uncertainty quantification
News
- 2025.11 Happy to announce a new preprint!
- 2025.11 I will visit ENPC/Inria in Paris from November to January!
- 2025.06 I will attend Nek5000 Users Meeting in Virginia from August 5-7.
- 2025.06 I give a presentation at LJLL/Inria Seminar on June 2!
- 2025.04 I will again be at ENPC/Inria in Paris until July!
- 2024.09 Visting ENPC/Inria in Paris until November!
- 2024.03 Relocated to Boston and started my postdoc at MIT!
- 2024.02 Successfully graduated my PhD!
- 2023.09 Best poster award at MORTECH 2023!
Experiences
| Mar 2024 - Now | Postdoctoral Associate, MIT Advisor: Anthony Patera | |
| Feb 2020 - Feb 2024 | PhD Candidate, TU Eindhoven Advisors: Karen Veroy, Ondřej Rokoš |
Publications
Preprints
Mathematical Modeling and Error Estimation for the Thermal Dunking Problem: A Hierarchical Approach
Published in arXiv, 2025
Recent publications
Reduced-order modeling for second-order computational homogenization with applications to geometrically parameterized elastomeric metamaterials
Published in International Journal for Numerical Methods in Engineering, 2024
A comparative study of enriched computational homogenization schemes applied to two-dimensional pattern-transforming elastomeric mechanical metamaterials
Published in Computational Mechanics, 2023
A reduced order model for geometrically parameterized two-scale simulations of elasto-plastic microstructures under large deformations
Published in Computer Methods in Applied Mechanics and Engineering, 2023
Other publications
Learning constitutive models from microstructural simulations via a non-intrusive reduced basis method: Extension to geometrical parameterizations
Published in Computer Methods in Applied Mechanics and Engineering, 2022
Learning constitutive models from microstructural simulations via a non-intrusive reduced basis method
Published in Computer Methods in Applied Mechanics and Engineering, 2021
Talks
- 2025.08 Conference Talk, Nek User Meeting
- 2025.06 Invited Talk, Rencontres Inria-LJLL en calcul scientifique
- 2024.11 Invited Talk, CERMICS Applied Mathematics Seminar
- 2023.09 Conference Talk, 10th GACM Colloquium on Computational Mechanics
- 2023.09 Conference Talk, XVII International Conference on Computational Plasticity, Fundamentals and Applications
- 2023.06 Conference Talk, X International Conference on Coupled Problems in Science and Engineering
- 2022.09 Conference Talk, Model Reduction and Surrogate Modeling (MORE)
- 2022.08 Conference Talk, Gesellschaft fur angewandte Mathematik und Mechanik
- 2022.07 Conference Talk, 15th World Congress on Computational Mechanics
- 2022.06 Conference Talk, 8th European Congress on Computational Methods in Applied Science and Engineering
- 2022.04 Invited Talk, Meeting Materials Conference
- 2021.09 Conference Talk, VIII Conference on Mechanical Response of Composites
- 2021.07 Conference Talk, 16th U.S. National Congress on Computational Mechanics
- 2021.07 Conference Talk, VI ECCOMAS Young Investigators Conference
- 2021.06 Conference Talk, IX International Conference on Coupled Problems in Science and Engineering