Conveners
Tuesday Afternoon Session
- Burkhard Kolb (GSI Darmstadt)
Prof.
Wolfgang Gradl
(Universität Mainz)
1/22/19, 5:00 PM
Short Contribution
Recently, it has been proposed that the six-quark combination uuddss
could be a deeply bound state S, called the "sexaquark". Depending on
its mass, S could have a lifetime longer than the age of the universe,
or even be absolutely stable. This makes S a good Dark Matter
candidate, if it exists.
In this talk we present the first search for a stable, deeply-bound,
doubly strange...
Ms
Victoria Durant
(TU Darmstadt)
1/22/19, 5:20 PM
Short Contribution
We present the first determination of double-folding potentials based on chiral effective field theory up to next-to-next-to-leading order. To this end, we construct new two-body soft local chiral effective field theory interactions. We also present a first assessment of the impact of three-body interactions from chiral EFT on the nucleus-nucleus folding potential.
We benchmark this...
Dr
Carlo Gustavino
(INFN-Roma1)
1/22/19, 5:40 PM
Short Contribution
Thermonuclear reaction rates regulate the evolution of stars and the Big Bang Nucleosynthesis.
The LUNA Collaboration has shown that, by exploiting the ultra low background achievable deep underground, it is possible to study the relevant nuclear processes down to the nucleosynthesis energy inside stars and during the first minutes of Universe.
In this presentation the main results of...
Mr
Bernhard Hohlweger
(PhD Student)
1/22/19, 6:00 PM
Short Contribution
Femtoscopic studies of Baryon-Baryon pairs opens a new era of studying twoparticle
interactions at colliders. In particular, small collision systems prove to
be particularly well suited to probe the short-ranged strong potentials.
Experimental data are compared to local potentials with the newly developed
Correlation Analysis Tool using the Schrödinger Equation (CATS).
This analysis is...
Ms
Micol De Simoni
(Università di Roma "La Sapienza", Scienze di Base e Applicate per l'Ingegneria, Rome, Italy)
1/22/19, 6:20 PM
Short Contribution
The use of C, He and O ions in Particle Therapy (PT) exploits the enhanced Relative Biological Effectiveness and Oxygen Enhancement Ratio of such projectiles to improve the treatment efficacy in damaging the cancerous cells. To fully profit from the increased tumor control probability and ballistic precision of the projectiles, an accurate online monitor of the dose release spatial...
A. A. Ciemny
(Faculty of Physics, University of Warsaw, Poland)
1/22/19, 6:40 PM
Short Contribution
A characteristic feature of nuclei lying on the left of the $\beta$-stability path, extremely far away from it, is their high Q$_{\beta^+}$-value. This can result in the population of highly excited - and often unbound - states in the daughter nuclei. As a consequence, it can lead to $\beta$-delayed (multi-) charged-particle emission, being very competitive to deexcitation via $\gamma$...