The study of the nuclear fragmentation of $^{12}$C at the Particle Therapy beam energies is important for the development of even more specific treatment plans and also for the development of range monitoring techniques based on charged secondary particles. In this contribution, the fragmentation cross sections of 115 − 353 MeV/u kinetic energy carbon ion beams impinging over thin targets of...
Below the electroweak scale, new physics that violates lepton number in two units ($\Delta L = 2$) and is mediated by heavy particle exchange can be parameterized by a dimension-9 low-energy effective Lagrangian.
Operators in this Lagrangian involving first-generation quarks and leptons contribute to the short-range mechanism of neutrinoless double beta decay ($0\nu\beta\beta$) and therefore...
On behalf of CLAS collaboration.
The hadronization process can be studied across nuclei of different atomic sizes to understand how the nuclear medium influences this phenomenon.
Recently, an experiment was conducted using the CLAS12 detector at Jefferson Lab to study nuclear hadronization, among other phenomena. This experiment employed a dual-target system, which contained two fixed...
Semi-inclusive DIS off nuclei plays a central role in studying the spacetime development of hadronization. An important quantity is the distance traveled by the parton before its color neutralization, the so-called production length Lp. We focus on the pt-broadening observable that should offer direct access to the production length. However, while simple calculations work well for HERMES...
