Towards probing for hypercomplex quantum mechanics in a waveguide interferometer
Abstract
We experimentally investigate the suitability of a multi-path waveguide interferometer with mechanical shutters for performing a test for hypercomplex quantum mechanics. Probing the interferometer with coherent light we systematically analyse the influence of experimental imperfections that could lead to a false-positive test result. In particular, we analyse the effects of detector nonlinearity, input-power and phase fluctuations on different timescales, closed-state transmissivity of shutters and crosstalk between different interferometer paths. In our experiment, a seemingly small shutter transmissivity in the order of about is the main source of systematic error, which suggests that this is a key imperfection to monitor and mitigate in future experiments.
Cite
@article{arxiv.2104.11577,
title = {Towards probing for hypercomplex quantum mechanics in a waveguide interferometer},
author = {Sebastian Gstir and Edmond Chan and Toni Eichelkraut and Alexander Szameit and Robert Keil and Gregor Weihs},
journal= {arXiv preprint arXiv:2104.11577},
year = {2021}
}
Comments
23 pages, 7 figures