Free-space sub-terahertz field-polarization controlled by waveguide-mode-selection
Abstract
We study experimentally the free-space electro-magnetic field emitted from a multimode rectangular waveguide equipped with a diagonal-horn antenna. Using the frequency range of 215-580 GHz, a photo-mixer is used to launch a free-space circularly-polarized electro-magnetic field, exciting multiple modes at the input of the rectangular waveguide via an input diagonal-horn antenna. A second photo-mixer is used, together with a silicon mirror Fresnel scatterer, to act as a polarization-sensitive coherent detector to characterize the emitted field. We find that the radiated field, excited by the fundamental waveguide mode, is characterized by a linear polarization. In addition, we find that the polarization of the radiated field rotates by 45 degree if selectively exciting higher-order modes in the waveguide. Despite the higher-order modes, the radiated field appears to maintain a predominant Gaussian beam character, since an unidirectional coupling to a detector was possible, whereas the unidirectionality is independent of the frequency. We discuss a possible application of this finding.
Cite
@article{arxiv.2002.03200,
title = {Free-space sub-terahertz field-polarization controlled by waveguide-mode-selection},
author = {Marc Westig and Holger Thierschmann and Allard Katan and Matvey Finkel and Teun M. Klapwijk},
journal= {arXiv preprint arXiv:2002.03200},
year = {2021}
}
Comments
17 pages including references. This preprint article corresponds to the finally published article in Physical Review Applied, except minor amendments that have been included during the proof phase. Comments welcome!