Author in the following contributions
- Predicting Fragment Kinetic Energy Distributions in Nuclear Fission using a Bayesian Mixture Density Network
- Reconstructing Compact Objects Equation of State (EoS) via Machine and Deep Learning
- Neutron star dissipative tidal deformation originated by the bulk viscosity of npe matter
- Modeling the transition from Hadron Gas to deconfined Quark Matter via the Albright-Kapusta-Young switch function.
- Ground-state properties of finite nuclei with astrophysical interest in extreme magnetic fields, via covariant density functional theory
- Thermal effects on hadron-quark phase transition and the structure of proto-compact stars
- Effects of Short-Range Correlations on Quarkyonic Matter
- Evaluating Neutron-Induced Fission Yields using Gaussian Process Regression
- On the Nature of the Central Compact Object in HESS J1731-347 within Hadronic and Kaon-Condensed Frameworks
- Machine Learning and Neural Network Approaches for the Classification of Compact Stars
- Application of Gaussian Process Regression for Total Kinetic Energy in Neutron-Induced Fission