Success Stories (6)
RSS![chemical](https://eurohpc-ju.europa.eu/sites/default/files/styles/oe_theme_ratio_3_2_medium/public/2023-06/Chemical%20Sciences%20and%20Materials%2C%20Solid%20State%20Physics.png?itok=fO3ZtSRk)
The goal of the project is to use Artificial Intelligence (AI) technologies to precisely understand how a liquid behaves when deposited on a surface. Such understanding is key for research purposes or industrial applications.
![biochemistry](https://eurohpc-ju.europa.eu/sites/default/files/styles/oe_theme_ratio_3_2_medium/public/2023-06/Biochemestry.png?itok=K6JetRb0)
The goal of the research project is to advance and optimise the use of spatially fractionated radiation therapy (SFRT).
![biochemistry](https://eurohpc-ju.europa.eu/sites/default/files/styles/oe_theme_ratio_3_2_medium/public/2023-06/Biochemestry.png?itok=K6JetRb0)
The main objective of the project is to replicate human clinical trial data through advanced computational models, and replace the traditional data collected through ‘in vivo’ testing.
![Envi - EXT](https://eurohpc-ju.europa.eu/sites/default/files/styles/oe_theme_ratio_3_2_medium/public/2023-06/environmental_0.png?itok=pLEx74co)
The STREAM project (SponTaneous REArrangement of ice Motion in ice sheets) aims to investigate polar ice dynamics through the development of an innovative modelling system of ice flow.
The OL-STAR project aims at ensuring long-term safety of deep geological repositories used for nuclear waste storage, through complex computer modelling considering timescales of thousands to hundreds of thousands of years.
![COMP](https://eurohpc-ju.europa.eu/sites/default/files/styles/oe_theme_ratio_3_2_medium/public/2023-06/COMPUTATIONAL%20physics.png?itok=_TQu8VCr)
The goal of the project is to re-define collective electron motions and develop a novel light source that can be simultaneously bright and compact, known as quasi-particle.