First-forbidden transition of nuclear β decay by projected shell model
Abstract
The first-forbidden transition of nuclear β decay is expected to play crucial roles in many aspects in nuclear physics, nuclear astrophysics and particle physics such as the stellar β-decay rates and the reactor anti-neutrino spectra. In this work we develop the projected shell model (PSM) for description of first-forbidden transition of nuclear β decay for the first time. Detailed theoretical framework and logics are provided, and 35 dominant first-forbidden transitions that are expected to be important for the reactor anti-neutrino spectra problems are calculated and compared systematically with the data to test the new development of the PSM. The corresponding experimental Logf0 t values are described reasonably, and the quenching factors of nuclear matrix elements are found to affect the Logf0 t values as well as the related shape factors, which may be helpful for better understanding of the reactor anti-neutrino spectra problems.
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