Conveners
2; Tue-III
- Assumpta Parreño (University of Barcelona)
We review the main mechanisms leading to the production of light and intermediate mass nuclei and hypernuclei in relativistic nuclei collisions. We demonstrate that in these many-body phenomena one can separate and describe the processes characterising excited nuclear matter properties which have a primary importance for nuclear/particle physics and astrophysics. Such deep-inelastic...
In this talk, I will present the latest status of first-principles lattice QCD calculations of hadron interactions, in particular for those with strangeness. I introduce our theoretical framework, the HAL QCD method, and discuss its advantage over the traditional method.
I will then show our numerical results obtained near the physical point, as well as the recent experimental confirmation...
The instability of hyperons against the weak interaction hinders the experimental extraction of baryon-baryon low-energy observables in the strange sector. In this energy regime, a reliable numerical procedure to obtain information of nuclear physics quantities is lattice QCD, a high-demanding numerical approach to solve the complex dynamics of strongly-interacting systems directly from the...
Bridging the gap between nuclear physics and its fundamental theory, quantum chromodynamics (QCD), is of great importance. Since QCD is non-perturbative at low energies, lattice simulations, dubbed LQCD, are the only viable way to obtain ab initio QCD predictions for low energy nuclear physics.
These calculations are done, however, in a finite box, and are limited only to systems composed...
