Strongly interacting photons in one-dimensional continuum
Abstract
Photon-photon scattering in vacuum is extremely weak. However, strong effective interactions between single photons can be realized by employing strong light-matter coupling. These interactions are a fundamental building block for quantum optics, bringing many-body physics to the photonic world and providing important resources for quantum photonic devices and for optical metrology. In this Colloquium, we review the physics of strongly-interacting photons in one-dimensional systems with no optical confinement along the propagation direction. We focus on two recently-demonstrated experimental realizations: superconducting qubits coupled to open transmission lines, and interacting Rydberg atoms in a cold gas. Advancements in the theoretical understanding of these systems are presented in complementary formalisms and compared to experimental results. The experimental achievements are summarized alongside a description of the quantum optical effects and quantum devices emerging from them.
Cite
@article{arxiv.1603.06590,
title = {Strongly interacting photons in one-dimensional continuum},
author = {Dibyendu Roy and C. M. Wilson and Ofer Firstenberg},
journal= {arXiv preprint arXiv:1603.06590},
year = {2017}
}
Comments
Updated version, accepted for publication in Reviews of Modern Physics