Marx, M.M.MarxKrüger, Jan KristianJan KristianKrügerBirringer, RainerRainerBirringerSchmitt, HeinzHeinzSchmittHoltwick, RitaRitaHoltwickHuber, PatrickPatrickHuber2022-07-152022-07-151998Journal De Physique. IV : JP 8 (9): Pr9-125-Pr9-128 (1998)http://hdl.handle.net/11420/13167By reduction of the dimensions of the crystallites of ferroelectric and relaxor ceramics in the nanoscale range, one expects significant changes in their properties. In the case of PLZT 8/65/35 as a typical relaxor material one would expect a quantitative change of the relaxor properties, while ferroelectric materials are expected to show relaxor behavior because their crystallites have a size comparable to the relaxors nanodomains. For electric, respectively dielectric and elastic investigations thin amorphous films of PLZT were produced by rf-sputtering at room temperature and different grain sizes in the nanoscale range were prepared by a subsequent annealing process.en1155-433919989Pr9-125Pr9-128EDP SciencesPhysikJournal Article10.1051/jp4:1998922Other