Measurement of excited-state transitions in cold calcium atoms by direct femtosecond frequency-comb spectroscopy
Abstract
We apply direct frequency-comb spectroscopy, in combination with precision cw spectroscopy, to measure the 4s4p 3P1 4s5s 3S1 transition frequency in cold calcium atoms. A 657 nm ultrastable cw laser was used to excite atoms on the narrow (γ 400 Hz) 4s2 1S0 4s4p 3P1 clock transition, and the direct output of the frequency comb was used to excite those atoms from the 4s4p 3P1 state to the 4s5s 3S1 state. The resonance of this second stage was detected by observing a decrease in population of the ground state as a result of atoms being optically pumped to the metastable 4s4p 3P0,2 states. The 4s4p 3P1 4s5s 3S1 transition frequency is measured to be = 489 544 285 713(56) kHz; which is an improvement by almost four orders of magnitude over the previously measured value. In addition, we demonstrate spectroscopy on magnetically trapped atoms in the 4s4p 3P2 state.
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