An inverted crossover resonance within one Zeeman manifold

Abstract

We carry out investigations of inverted crossover resonances in π-driven four-level systems where F can be zero. Through the use of sub-Doppler frequency modulation spectroscopy of the (6s2) 1S0 - (6s6p) 3P1 transition in 171Yb the resonance becomes manifest. The centre-frequency is inherently insensitive to first-order Zeeman shifts and equates to the two-level resonance frequency in the absence of a magnetic field. A rate equation model is used to help validate the nature of the resonance. Optical frequency measurements of the F'=1/2 hyperfine line recorded over two months demonstrate a statistical uncertainty of 2×10-11. The inverted crossover resonance found with the F'=3/2 line is used for 556 nm laser frequency stabilization, which is an alternative means when applied to magneto-optical trapping of 171Yb.