Joas Santiago Grossi
- Research Fellow:International Laboratory for Supercomputer Atomistic Modelling and Multi-scale Analysis
- Joas Santiago Grossi has been at HSE University since 2021.
Responsibilities
-engage in research activities, pursue their research interests in conjunction with the International Laboratory for Supercomputer Atomistic Modeling and Multi-scale Analysis under the supervision of its head;
-integrate research results into the educational process;
-publish research results.
Education and Degrees
- 2021
PhD
Saint Louis University - 2015
Bachelor's
National University of Cuyo Degree in Basic Sciences, Physics Orientation. Department of Exact and Natural Sciences, National University of Cuyo, Argentina. Started 03/2010. Ended 12/2014.
PhD in Physics. Department of Physics, Mathematics and Natural Sciences, National University of San Luis, Argentina. Started 03/2016. Ended 10/2020.
Continuing education / Professional retraining / Internships / Study abroad experience
Collaboration with Queen's University Belfast (2015, six months). Funding: EC-H2020-MSC-RISE-2014, Project 643998 ENACT of the European Community.
Collaboration with University of Cambridge (2016-2017 and 2017-2018, six months each).Funding: EC-FP7-PEOPLE-CIG-2012 Marie Curie, Project number 333813 Electron Stopping of the European Community.
Awards and Accomplishments
Gold Medal, Department of Exact and Natural Sciences, National University of Cuyo (2015)
Electromagnetism.
Introduction to modern physics: special relativity and quantum mechanics.
Quantum mechanics.
Publications3
- Article Joás Grossi, Pisarev V. Two-temperature molecular dynamics simulations of crystal growth in a tungsten supercooled melt // Journal of Physics: Condensed Matter. 2022. Vol. 35. No. 1. Article 015401. doi
- Article Grossi J. S., Kohanoff J., Bringa E. M. MeV irradiation of tungsten nanowires: structural modifications // Materials Research Express. 2020. Vol. 7. Article 055015. doi
- Article Grossi J. S., Kohanoff J., Todorov T. N., Artacho E., Bringa E. M. Electronic heat transport versus atomic heating in irradiated short metallic nanowires // Physical Review B: Condensed Matter and Materials Physics. 2019. Vol. 100. Article 155434. doi
Conferences
“Dye sensitized solar cells: charge transport in the ionic liquid [BMIM][I] by diffusion of triiodides”. Second ENACT Workshop, Belfast, Northern Ireland (June 2016).
Grants
Internal PhD Studentship of CONICET (2016-2020): “Modifications in nanostructures due to the coupling of electronic excitations with atomic motion”.