Precision Measurement of the Quadrupole Transition Matrix Element in a Single Trapped 40Ca+

Abstract

We report the first experimental determination of the 4s \ 2S1/2 3d \ 2D5/2 quadrupole transition matrix element in 40Ca+ by measuring the branching ratio of the 3d \ 2D5/2 state decaying into the ground state 4s \ 2S1/2 and the lifetime of the 3d \ 2D5/2 state, using a technique of highly synchronized measurement sequence for laser control and highly efficient quantum state detection for quantum jumps. The measured branching ratio and improved lifetime are, respectively, 0.9992(80) and 1.1652(46) s, which yield the value of the quadrupole transition matrix element (in absolute value) 9.737(43)~ea02 with the uncertainty at the level of 0.44\%. The measured quadrupole transition matrix element is in good agreement with the most precise many-body atomic structure calculations. Our method can be universally applied to measurements of transition matrix elements in single ions and atoms of similar structure.