Strong Coupling on a Forbidden Transition in Strontium and Nondestructive Atom Counting

Abstract

We observe strong collective coupling between an optical cavity and the forbidden spin singlet to triplet optical transition 1S0 to 3P1 in an ensemble of 88Sr. Despite the transition being 1000 times weaker than a typical dipole transition, we observe a well resolved vacuum Rabi splitting. We use the observed vacuum Rabi splitting to make non-destructive measurements of atomic population with the equivalent of projection-noise limited sensitivity and minimal heating (<0.01 photon recoils/atom). This technique may be used to enhance the performance of optical lattice clocks by generating entangled states and reducing dead time.