CC BY 4.0Jansen, JonasJonasJansenMaad Sasane, SaraSaraMaad SasaneTreschow, WilhelmWilhelmTreschow2025-09-152025-09-152025https://publica.fraunhofer.de/handle/publica/495193https://doi.org/10.24406/publica-540810.1063/5.026632810.24406/publica-5408We investigate the persistence of embedded eigenvalues for a class of magnetic Laplacians on an infinite cylindrical domain. The magnetic potential is assumed to be C2 and asymptotically periodic along the unbounded direction of the cylinder, with an algebraic decay rate toward a periodic background potential. Under the condition that the embedded eigenvalue of the unperturbed operator lies away from the thresholds of the continuous spectrum, we show that the set of nearby potentials for which the embedded eigenvalue persists forms a smooth manifold of finite and even codimension. The proof employs tools from Floquet theory, exponential dichotomies, and Lyapunov–Schmidt reduction. Additionally, we give an example of a potential which satisfies the assumptions of our main theorem.enElectronic band structureMagnetic potentialDifferentiable manifoldjournal article