Random access codes (RACs) are used by a party to despite limited communication access an arbitrary subset of information held by another party. Quantum resources are known to enable RACs that break classical limitations. Here, we study quantum and classical RACs with high-level communication. We derive average performances of classical RACs and present families of high-level quantum RACs. Our results show that high-level quantum systems can significantly increase the advantage of quantum RACs over the classical counterparts. We demonstrate our findings in an experimental realization of a quantum RAC with four-level communication.
@article{arxiv.1504.08105,
title = {Quantum Random Access Codes using Single $d$-level Systems},
author = {Armin Tavakoli and Alley Hameedi and Breno Marques and Mohamed Bourennane},
journal= {arXiv preprint arXiv:1504.08105},
year = {2015}
}