Bachmann, DavidDavidBachmannIsoard, MathieuMathieuIsoardShatokhin, Vyacheslav N.Vyacheslav N.ShatokhinSorelli, GiacomoGiacomoSorelliTreps, NicolasNicolasTrepsBuchleitner, AndreasAndreasBuchleitner2023-09-272023-09-272023https://publica.fraunhofer.de/handle/publica/45105910.1103/PhysRevLett.130.0738012-s2.0-8514832203136867810We show that instantaneous spatial singular modes of light in a dynamically evolving, turbulent atmosphere offer significantly improved high-fidelity signal transmission as compared to standard encoding bases corrected by adaptive optics. Their enhanced stability in stronger turbulence is associated with a subdiffusive algebraic decay of the transmitted power with evolution time.enjournal article