We study a waveguide QED system with a rectangular waveguide and a two-level system (TLS) inside, where the transverse modes TMmn define the quantum channels of guided photons. It is discovered that the loss of photons in the TM11 channel into the others can be overcome by replacing it with a certain coherent superposition of TMmn channels, which is named as the controllable channel (CC) as the photons in CC can be perfectly reflected or transmitted by the TLS, and never lost into the other channels. The dark state emerges when the photon is incident from one of the scattering-free channels (SFCs) orthogonal to CC. The underlying physics mechanism is the multi-channel interference associated with Fano resonance.
@article{arxiv.1308.2011,
title = {Waveguide QED: controllable channel from quantum interference},
author = {Qiong Li and Lan Zhou and C. P. Sun},
journal= {arXiv preprint arXiv:1308.2011},
year = {2014}
}