1) Seminario Dr. Luca Graziani
vincitore procedura selettiva RTT a tempo pieno, CODICE CONCORSO 2024RTTR031, SSD PHYS-05/A
Data : 16 aprile 2025, ore 12.00
Sala Lauree Edificio CU013 Marconi
Per coloro che fossero impossibilitati ad essere presenti è possibile seguire tramite il collegamento zoom:
https://uniroma1.zoom.us/j/86581525460?pwd=LQCfdCbRb4lrVjoxoVLs9WlbI9HwUY.1
Titolo : A journey into my scientific research topics: Cosmic Reionization, Galaxy Formation and galaxy hosts of gravitational wave signals
Abstract: This talk summarizes the scientific activity I developed in recent years by exploring the synergies of three different scientific topics: the process of Cosmic Reionization, the theory of high redshift galaxy formation and their implications on recent detections of gravitational wave signals.I will first introduce the process of Cosmic Reionization of hydrogen and helium and how this is simulated by radiative transfer codes I developed in recent years. In particular implications on the assumed homogeneity and isotropy of the resulting UB background will be discussed with emphasis on the sources of ionizing photons. Their synergies, in terms of radiative and chemical feedback, will be further illustrated by comparing with recent predictions of my galaxy formation codes: dustyGadget and GAMESH. The implications of cosmic dust and metals in high redshift galaxies will be further illustrated in light of recent observations by the James Webb Telescope. Finally, the high- and low redshift will be connected by interpreting low metallicity dwarf galaxies as relics of the reionization process, and as possible hosts of gravitational wave signals emitted by high-mass black hole binaries at all cosmic epochs.
2)Seminario Dr.ssa Annalisa Di Bernardino
vincitrice procedura selettiva RTT a tempo pieno, CODICE CONCORSO 2024RTTR021, SSD PHYS-05/B
Data : 23 aprile 2025, ore 12.00
Aula Conversi Edificio CU013 Marconi
Per coloro che fossero impossibilitati ad essere presenti è possibile seguire tramite il collegamento zoom dell'Aula:
https://uniroma1.zoom.us/j/87038625161?pwd=cEtGRjZNT2VWSlJIWmxaYmxSMDhRZz09
Titolo: Ground-based atmospheric observations: a key approach for urban climate studies
Abstract: Ground-based remote sensing observations represent a fundamental tool for monitoring the atmosphere, particularly in complex urban environments. Acquiring high-quality, quality-controlled atmospheric data in cities is especially critical, as urban areas are among the most vulnerable to the impacts of climate change. Coastal cities within the Mediterranean basin—a recognized climate change hotspot—offer unique opportunities for studying atmospheric dynamics and air quality due to their distinct meteorological and geographical characteristics. In this context, I will present research on urban climate dynamics and extreme temperature events, with a focus on the interactions between atmospheric circulation patterns and pollutant dispersion.