CC BY 4.0Sundarapandian, BalasubramanianBalasubramanianSundarapandianTran, DatDatTranKirste, LutzLutzKirsteStranak, PatrikPatrikStranakGraff, AndreasAndreasGraffPrescher, MarioMarioPrescherNair, AkashAkashNairRaghuwanshi, MohitMohitRaghuwanshiDarakchieva, VanyaVanyaDarakchievaPaskov, Plamen P.Plamen P.PaskovAmbacher, OliverOliverAmbacher2024-06-042024-08-202024-06-042024https://doi.org/10.24406/h-469425https://publica.fraunhofer.de/handle/publica/46942510.1063/5.020216110.24406/h-469425Wurtzite-type aluminum nitride (AlN) thin films exhibiting high thermal conductivity, large grain size, and low surface roughness are desired for both bulk acoustic wave and surface acoustic wave resonators. In this work, we use ammonia (NH(3)) assisted reactive sputter deposition of AlN to significantly improve these properties. The study shows a systematic change in the structural, thermal, and morphological properties of AlN grown in nitrogen (N(2)) and N(2) + NH(3) atmosphere. The study demonstrates that NH(3) assisted AlN sputtering facilitates 2D growth. In addition, the study presents a growth model relating the 2D growth to improve the mobility of aluminum (Al) and nitrogen (N) ad-atoms in NH(3) atmosphere. Consequently, the thermal conductivity and roughness improve by ≈76%, and ≈35%, while the grain size increases by ≈78%.enChemical compoundsThermal conductivityImpurity levelsjournal article