We propose a quantum-enhanced iterative (with K steps) measurement scheme based on an ensemble of N two-level probes which asymptotically approaches the Heisenberg limit δK∝R−K/(K+1), R the number of quantum resources. The protocol is inspired by Kitaev's phase estimation algorithm and involves only collective manipulation and measurement of the ensemble. The iterative procedure takes the shot-noise limited primary measurement with precision δ1∝N−1/2 to increasingly precise results δK∝N−K/2. A straightforward implementation of the algorithm makes use of a two-component atomic cloud of Bosons in the precision measurement of a magnetic field.
@article{arxiv.1304.2025,
title = {Sequential quantum-enhanced measurement with an atomic ensemble},
author = {A. V. Lebedev and P. Treutlein and G. Blatter},
journal= {arXiv preprint arXiv:1304.2025},
year = {2014}
}