Sciara, StefaniaStefaniaSciaraYu, HaoHaoYuChemnitz, MarioMarioChemnitzMonika, MonikaMonikaMonikaNosrati, FarzamFarzamNosratiGeorge, AgnesAgnesGeorgeMontaut, NicolaNicolaMontautFischer, BennetBennetFischerCrockett, BenjaminBenjaminCrockettHelsten, RobinRobinHelstenWetzel, BenjaminBenjaminWetzelGoebel, Thorsten AlbertThorsten AlbertGoebelKrämer, Ria G.Ria G.KrämerLittle, Brent E.Brent E.LittleChu, Sai T.Sai T.ChuNolte, StefanStefanNolteWang, ZhimingZhimingWangAzaña, JoséJoséAzañaMunro, William JohnWilliam JohnMunroMoss, David J.David J.MossPeschel, UlfUlfPeschelLo Franco, RosarioRosarioLo FrancoMorandotti, RobertoRobertoMorandotti2025-02-112025-02-112024https://publica.fraunhofer.de/handle/publica/4837762-s2.0-85215959261Encoding information in photonic time bin enables quantum technologies compatible with both integrated and fiber frameworks. Here, we demonstrate time-bin entangled qudits in a programmable photonic chip and in a fully fibered coupled loop system.enfalseTime-bin entangled photons for scalable quantum information processingconference paper