We propose a novel interaction-free scheme for all-optical switching which does not rely on the physical coupling between signal and control waves. The interaction-free nature of the scheme allows it to overcome the fundamental photon-loss limit imposed by the signal-pump coupling. The same phenomenon protects photonic-signal states from decoherence, making devices based on this scheme suitable for quantum applications. Focusing on χ(2) waveguides, we provide device designs for traveling-wave and Fabry-Perot switches. In both designs, the performance is optimal when the signal switching is induced by coherent dynamical evolution. In contrast, when the switching is induced by a rapid dissipation channel, it is less efficient.
@article{arxiv.1008.2408,
title = {Interaction-Free All-Optical Switching via Quantum-Zeno Effect},
author = {Yu-Ping Huang and Joseph B. Altepeter and Prem Kumar},
journal= {arXiv preprint arXiv:1008.2408},
year = {2015}
}
Comments
14 pages, 14 figures, submitted to Physical Review A