A possible solution to the which-way problem of quantum interference
Abstract
It is commonly assumed that the observation of an interference pattern is incompatible with any information about the path taken by a quantum particle. Here we show that, contrary to this assumption, the experimentally observable effects of small polarization rotations applied in the slits of a double slit experiment indicate that individual particles passing the slits before their detection in the interference pattern are physically delocalized with regard to their interactions with the local polarization rotations. The rate at which the polarization is flipped to the orthogonal state is a direct measure of the fluctuations of the polarization rotation angles experienced by each particle. Particles detected in the interference maxima experience no fluctuations at all, indicating a presence of exactly one half of the particle in each slit, while particles detected close to the minima experience polarization rotations much larger than the local rotations, indicating a negative presence in one of the slits and a presence of more than one in the other.
Keywords
Cite
@article{arxiv.2111.03203,
title = {A possible solution to the which-way problem of quantum interference},
author = {Holger F. Hofmann and Tomonori Matsushita and Shunichi Kuroki and Masataka Iinuma},
journal= {arXiv preprint arXiv:2111.03203},
year = {2023}
}
Comments
7 pages, including 1 figure; improved explanation of the relation with weak values and weak measurements in the introduction