Discovery Potential of Next-Generation Double Beta Decay Experiments
Manoj Kumar Singh1*, Henry Tsz-king Wong1
1Physics, Institute of Physics, Academia Sinica, Taipei, Taiwan
* Presenter:Manoj Kumar Singh, email:manu@gate.sinica.edu.tw
Observation of neutrinoless double-beta decay (0νβ−β−) would establish that neutrinos are Majorana particles (indistinguishable from their antiparticles) [1, 2]. In spite of the formidable experimental challenges, it is an experimentally sensitive avenue to provide direct information on neutrino masses. The current work [3] would explore the required discovery sensitivity for the upcoming projected 0νβ−β− experiments to probe the inverted mass hierarchy (IH) as well as non-degenerate (ND) normal mass hierarchy (NH). We studied the required exposures of 0νβ−β− -projects as a function of the expected background (following “Discovery Potential at 3σ with 50% probability” statistical scheme) before the experiments are performed. This work would address the pivotal role of background suppression in the future 0νβ−β− experiments with sensitivity goals of approaching and covering ND-NH.




References
[1] M. Agostini, G. Benato, J. A. Detwiler, J. Menéndez, F. Vissani, “Toward the discovery of matter creation with neutrinoless double-beta decay”, arXiv:2202.01787 (2022).
[2] R. G. H. Robertson, “Empirical Survey of Neutrinoless Double Beta Decay Matrix Elements”, Mod. Phys. Lett. A 28, 1350021 (2013).
[3] M. K. Singh, H. T. Wong, L. Singh, V. Sharma, V. Singh, and Q. Yue, “Exposure-background duality in the searches of neutrinoless double beta decay”, Phys. Rev. D 101, 013006 (2020).


Keywords: Double beta decay, Sensitivity, Neutrino mass hierarchy