¹ Department of Inorganic Chemistry, Institute of Chemical Technology Prague, Technická 5, 166 28 Prague, Czech Republic
² Department of Microelectronics, Czech Technical University, Technická 2, 166 28 Prague, Czech Republic
³ Laboratory of Molecular Spectrometry, Institute of Chemical Technology Prague, Technická 5, 166 28 Prague, Czech Republic
⁴ Institute of Nuclear Physics, Czech Academy of Sciences, 250 68 Rez near Prague, Czech Republic
⁵ Institute of Ion Beam Physics and Material Analysis, Forschungzentrum Rossendorf POB 51 01 19, 013 14 Dresden, Germany

Keywords: Lithium niobate, Erbium, Annealed proton exchange, APE, Optical waveguides

We report about our study of the annealing effect on the resultant chemical composition of the APE (Annealed Proton Exchange) layers and their optical properties, with emphasis on their potential active function. The samples were annealed at various conditions and characterised by a number of nuclear analytic methods (NDP; ERDA; HIERDA) to investigate concentration profiles of the exchanged ions. The content of OH groups, which are undesirable in the active waveguiding layers owing to their effect of erbium excited state lifetimes shortening, was studied by IR absorption spectrometry. The waveguiding properties (number of guided modes, refractive index vs. depth profile) were measured by mode spectroscopy at 632.8 nm. We found out that hydrogen introduced to the surface layers of LiNbO₃ by PE (Proton Exchange) moves deeper into the substrate during A (Annealing), lowering thus total refractive index increment. Consequently, the crystallographic phase of the exchanged layers changes towards the α-phase. The lowest amounts of OH groups were found when highest annealing temperatures were used; however, a limitation exists there as temperatures above 400°C cause degradation of the waveguiding properties.

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