Niels, MargotMargotNielsVissers, EwoudEwoudVissersVanackere, TomTomVanackereMoerman, ArnoArnoMoermanZheng, XiujunXiujunZhengGuo, XinXinGuoGeerinck, PeterPeterGeerinckSoltanian, EmadEmadSoltanianZhang, JingJingZhangJanssen, SofieSofieJanssenVerheyen, PeterPeterVerheyenSingh, NehaNehaSinghBode, DieterDieterBodeDavi, MartinMartinDaviFerraro, FilippoFilippoFerraroAbsil, PhilippePhilippeAbsilBalakrishnan, SadhishkumarSadhishkumarBalakrishnanVan Campenhout, JorisJorisVan CampenhoutHänsch, SebastianSebastianHänschMai, HanhHanhMaiSingh, NishantNishantSinghRoelkens, GuntherGuntherRoelkensUvin, SarahSarahUvinBillet, MaximilienMaximilienBilletKuyken, BartBartKuyken2026-07-152026-07-152025979-8-3315-2560-62374-0140https://imec-publications.be/handle/20.500.12860/59851We demonstrate a scalable approach for integrating lithium niobate onto silicon photonics using wafer-scale micro-transfer printing, enabling high-speed modulators with a 3.8 V half-wave voltage and over 70 GHz bandwidth. As proof of concept, over 200 lithium niobate structures were integrated on a 200−mm wafer.engWafer-scale integration of lithium niobate on a silicon photonics 200-mm platformProceedings paper10.1109/ipc65510.2025.11282050WOS:001789451200069