
Research Area: PHYS-02/A - Fisica Teorica delle Interazioni Fondamentali, Modelli, Metodi Matematici e Applicazioni
Research activities
My research interests lie at the interface between statistical mechanics, condensed matter physics, quantum information, and mathematical physics. In my research I combine theoretical tools borrowed from these areas with state-of-the-art numerical methods. The goal is to study universal aspects of highly-entangled quantum many-body systems both at equilibrium and out-of-equilibrium. An important general aim of my research is to characterize how statistical mechanics and thermodynamics emerge from the out-of-equilibrium dynamics of isolated quantum systems.
Recent publications
- Bound-state confinement after trap-expansion dynamics in integrable systems [2024]
- Entangled multiplets, asymmetry, and quantum Mpemba effect in dissipative systems [2024]
- Entanglement gap in 1D long-range quantum spherical models [2023]
- Entanglement in the quantum spherical model: a review [2023]
- Entanglement negativity in a fermionic chain with dissipative defects: exact results [2023]
Courses
- FISICA GENERALE I (Cod. 011BB) CdS ICE-L INGEGNERIA CIVILE AMBIENTALE E EDILE (Registro)
- MECCANICA QUANTISTICA (Cod. 258BB) CdS FIS-L FISICA (Registro)
- NONPERTURBATIVE APPROACHES TO QUANTUM FIELD THEORIES / ASPETTI NON PERTURBATIVI DELLE TEORIE DI CAMPO QUANTISTICHE (Cod. 358BB) CdS WFI-LM FISICA (Registro)