Most continuous-variable quantum key distribution schemes are based on the Gaussian modulation of coherent states followed by continuous quadrature detection using homodyne detectors. In all previous schemes, the Gaussian modulation has been carried out in conjugate quadratures thus requiring two independent modulators for their implementations. Here, we propose and experimentally test a largely simplified scheme in which the Gaussian modulation is performed in a single quadrature. The scheme is shown to be asymptotically secure against collective attacks, and considers asymmetric preparation and excess noise. A single-quadrature modulation approach renders the need for a costly amplitude modulator unnecessary, and thus facilitates commercialization of continuous-variable quantum key distribution.
@article{arxiv.1507.01003,
title = {Single-Quadrature Continuous-Variable Quantum Key Distribution},
author = {Tobias Gehring and Christian S. Jacobsen and Ulrik L. Andersen},
journal= {arXiv preprint arXiv:1507.01003},
year = {2016}
}