Frequency measurement of the 1S0, F=5/2\,3P1, F=7/2 transition of 27Al+ via quantum logic spectroscopy with 40Ca+

Abstract

We perform quantum logic spectroscopy with a 27Al+/40Ca+ mixed ion crystal in a linear Paul trap for a measurement of the (3s2)\,1S0 \, (3s3p)\,3P1, F=7/2 intercombination transition in 27Al+. Towards this end, Ramsey spectroscopy is used for probing the transition in 27Al+ and the (4s2)\,S1/2 \, (4s3d)\,D5/2 clock transition in 40Ca+ in interleaved measurements. By using the precisely measured frequency of the clock transition in 40Ca+ as a frequency reference, we determine the frequency of the intercombination line to be 1S0 \,3P1,F=7/2=1122 842 857 334 736(93) Hz and the Land\'e g-factor of the excited state to be g3P1, F=7/2=0.428132(2).