or
While 13C could theoretically undergo 0νββ decay, there are no ongoing or planned experiments focused on this specific process due to its unfavorable characteristics. The search for 0νββ decay remains an active area of research in particle physics, with several experiments currently operating or planned to study this phenomenon in more promising nuclei. co3 0nu
13C → 13N + 2e- + 2ν̅e (for 2νββ) or While 13C could theoretically undergo 0νββ decay,
The half-life of 13C for 0νββ decay to 13N has been estimated theoretically. The process would look like: The process would look like: 13C → 13N
13C → 13N + 2e- (for 0νββ)
To date, no experiments have been conducted specifically targeting the 0νββ decay of 13C. The primary reason is the extremely low expected rate and high background levels anticipated in such measurements.
The neutrinoless double beta decay (0νββ) is a rare nuclear process in which a nucleus emits two beta particles (electrons) without emitting any neutrinos. This process is of great interest in particle physics because it can provide insight into the nature of neutrinos and the mechanism of neutrino mass generation. One of the candidates for this process is the isotope Carbon-13 (13CO3 or 13C).