Le nostre Notizie
Esame finale del XXXVI ciclo del Dottorato di Ricerca in Fisica (Curriculum Fisica Teorica) - 15 aprile 2024 ore 14.00 aula C
Quantum-Enhanced Magnetometry at Optimal Number Density
Researchers from the University of Bari have contributed to the demonstration of quantum enhancement of an optical magnetometer by using squeezed light
Alla scoperta dell'Universo Invisibile: Materia Oscura, Onde Gravitazionali e Buchi Neri
Seminario del dr. Andrea Caputo del CERN di Ginevra, sul tema "Alla scoperta dell'Universo Invisibile: Materia Oscura, Onde Gravitazionali e Buchi Neri"
XXXIV International School “Francesco Romano” on Nuclear, Subnuclear and Astroparticle Physics
XXXIV International School “Francesco Romano” on Nuclear, Subnuclear and Astroparticle Physics
General Meeting della COST Action "COSMIC WISPers in the Dark Universe: Theory, astrophysics and experiments"
General Meeting della COST Action "COSMIC WISPers in the Dark Universe: Theory, astrophysics and experiments". Il progetto "COSMIC WISPers'', coordinato dal Prof. Alessandro Mirizzi, si occupa dello studio teorico e sperimentale di assioni e altre particelle ipotetiche chiamate WISP (''weakly interacting slim particles'') previste in diverse estensioni del Modello Standard della fisica delle particelle.
2° Workshop Progetto QUASIMODO
Il 14 Luglio si terrà presso il Dipartimento di Fisica il 2° workshop del progetto "Quasimodo" (Quantum Sensing and Modelling for One-Health), per il quale il Dipartimento di Fisica ha conseguito il prestigioso status di "Dipartimento di Eccellenza"
Seminar "Quantum nanophotonics with low-dimensional structures: Interfacing quantum optics and material science" by Prof. K. Słowik (NCU Torun, Poland)
Low-dimensional material structures made of graphene or other 2D materials may serve as fundamental building blocks for multilayered heterostructures, and exhibit topological properties or plasmonic optical responses that can be fine-tuned via electronic or optical manipulation. In the seminar, Prof. Karolina Słowik (Nicolaus Copernicus University in Torun, Poland) will discuss a framework to model the optoelectronic properties of low-dimensional structures, that combines solid-state and quantum-optical tools. The framework allows tackling experimentally relevant systems, such as atom chains, graphene flakes or more complicated heterostructures. Applications of the framework to investigate the physical mechanism of plasmonic excitations in quantum-mechanical systems and to study the role of atomic defects in chains will be demonstrated.