Alignment-dependent decay rate of an atomic dipole near an optical nanofiber

Abstract

We study the modification of the atomic spontaneous emission rate, i.e. Purcell effect, of 87Rb in the vicinity of an optical nanofiber (500 nm diameter). We observe enhancement and inhibition of the atomic decay rate depending on the alignment of the induced atomic dipole relative to the nanofiber. Finite-difference time-domain simulations are in quantitative agreement with the measurements when considering the atoms as simple oscillating linear dipoles. This is surprising since the multi-level nature of the atoms should produce a different radiation pattern, predicting smaller modification of the lifetime than the measured ones. This work is a step towards characterizing and controlling atomic properties near optical waveguides, fundamental tools for the development of quantum photonics.