We propose a scheme which encodes information in both the longitudinal and spatial transverse phases of a continuous-wave optical beam. A split detector-based interferometric scheme is then introduced to optimally detect both encoded phase signals. In contrast to present-day optical storage devices, our phase coding scheme has an information storage capacity which scales with the power of the read-out optical beam. We analyse the maximum number of encoding possibilities at the shot noise limit. In addition, we show that using squeezed light, the shot noise limit can be overcome and the number of encoding possibilities increased. We discuss a possible application of our phase coding scheme for increasing the capacities of optical storage devices.
@article{arxiv.quant-ph/0602132,
title = {A quantum study of multi-bit phase coding for optical storage},
author = {Magnus T. L. Hsu and Vincent Delaubert and Warwick P. Bowen and Claude Fabre and Hans-A. Bachor and Ping Koy Lam},
journal= {arXiv preprint arXiv:quant-ph/0602132},
year = {2009}
}
Comments
8 pages, 7 figures (Please email author for a PDF file if the manuscript does not turn out properly)