Quantum Anti-Zeno Effect in Nuclear β DecaySupported by the National Natural Science Foundation of China (Grant Nos. 11822503 and 11575082), and the Fundamental Research Funds for the Central Universities (Nanjing University).

Abstract

The acceleration of decay induced by frequency measurements, namely the quantum anti-Zeno effect (AZE), was first predicted by Kofman and Kurizki [Nature 405 (2000) 546]. The effect of the frequency measurements on nuclear β decay rate is analyzed based on the time-dependent perturbation theory. We present a detailed calculation of the decay rates of 3H, 60Co (β − type), 22Na, 106Ag (β + type) and 18F, 57Co and 111Sn (EC type) under frequency measurements. It is found that the effects of frequency measurements on the decay rates of β + and β − cases are different from the case of EC, and the smaller the β decay energy is, the more favorable it is to observe the AZE in experiment. Based on our analysis, it is suggested that possible experimental candidates should have a small decay energy and a reasonable half life (such as 3H) for observing the AZE in β decay.