Efficient production of 229mTh via nuclear excitation by electron capture

Abstract

The nuclear isomeric state 229mTh with an exceptionally low excitation energy makes the 229Th isotope a crucial candidate for nuclear clocks and many other applications. Efficient and controllable production of 229mTh is essential and still remains a challenge. Here we report a novel approach for efficient production of 229mTh by the excitation of 229Th to the above-lying excited state at 29.19 keV energy via the process of nuclear excitation by electron capture (NEEC). We show theoretically that the production rate of 229mTh per nucleus with accessible conditions can be six orders of magnitude larger than the value experimentally demonstrated using 29-keV synchrotron radiation for this indirect excitation. With the efficient production of 229mTh, our results identify scenarios, as well as the characteristic NEEC signature with which NEEC events could be unambiguously identified, for a clear experimental identification of the long-sought NEEC phenomenon.