We propose an experiment that would produce and measure a large Aharonov-Casher (A-C) phase in a solid-state system under macroscopic motion. A diamond crystal is mounted on a spinning disk in the presence of a uniform electric field. Internal magnetic states of a single NV defect, replacing interferometer trajectories, are coherently controlled by microwave pulses. The A-C phase shift is manifested as a relative phase, of up to 17 radians, between components of a superposition of magnetic substates, which is two orders of magnitude larger than that measured in any other atom-scale quantum system.
@article{arxiv.0910.4216,
title = {Single atom-scale diamond defect allows large Aharonov-Casher phase},
author = {D. Maclaurin and A. D. Greentree and J. H. Cole and L. C. L. Hollenberg and A. M. Martin},
journal= {arXiv preprint arXiv:0910.4216},
year = {2015}
}