We have investigated an approach to determine the Majorana type-phases using the time evolution of lepton family numbers. The Majorana type-phases are related to the orientation of unitarity triangles for the Pontecorvo-Maki-Nakagawa-Sakata (PMNS) matrix, and the Majorana phases $\alpha_{21}$ and $\alpha_{31}$. After taking the second-order time derivative of the lepton family number expectation values, the dependencies on the summation of Majorana type-phases can be determined. Thus allowing for the extraction of the orientation of the unitarity triangles and the Majorana phases. We study how to extract the Majorana type-phases and the lightest neutrino mass for three massive neutrinos, and when a neutrino is massless, i.e., $m_{1,3}=0$. Our result can be complimentary to using neutrinoless double-beta decay for determining the orientation of PMNS unitarity triangles and the Majorana phases.
Comment: 18 pages, 5 figures, In v2,one reference is cited in a correct place. The order of the author's addresses is corrected