We explore quantum localization phenomena in a system of two coupled tight-binding chains with incommensurate periods. Employing the inverse participation ratio as a measure of localization, we investigate the effects of geometric incommensurability and external magnetic fields. Numerical results reveal the existence of a mobility edge in the spectrum characterized by an abrupt onset of localization in higher-energy states. We find that localization tends to be enhanced by a weak magnetic field, whereas a strong field delocalizes most states.
@article{arxiv.2510.20004,
title = {Quantum localization in incommensurate tight-binding chains},
author = {C. J. Dyrseth and K. V. Samokhin},
journal= {arXiv preprint arXiv:2510.20004},
year = {2026}
}