Lifetime and hyperfine splitting measurements on the 7s and 6p levels in rubidium

We present lifetime measurements of the 7S1/2 level and the 6p manifold of rubidium. We use a time-correlated single-photon counting technique on a sample of 85Rb atoms confined and cooled in a magneto-optic trap. The upper state of the 5P1/2 repumping transition serves as the resonant intermediate level for two-photon excitation of the 7s level. A probe laser provides the second step of the excitation, and we detect the decay of atomic fluorescence to the 5P3/2 level at 741 nm. The decay process feeds the 6p manifold that decays to the 5s ground state emitting UV photons. We measure lifetimes of 88.07 ± 0.40 and 120.7 ± 1.2 ns for the 7S1/2 level and 6p manifold, respectively; the hyperfine splitting of the 7S1/2 level is 282.6 ± 1.6 MHz. The agreement with theoretical calculations confirms the understanding of the wave functions involved and provides confidence on the possibility of extracting weak interaction constants from a parity nonconservatian measurement. © 2004 Optical Society of America.

Electron energy levels; Electron transitions; Electron traps; Fluorescence; Ground state; Lasers; Photons; Quantum theory; Atomic fluorescence; Hyperfine splitting; Lifetime measurements; Rubidium

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