Berlin 2008 – wissenschaftliches Programm
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MM: Fachverband Metall- und Materialphysik
MM 23: Poster session
MM 23.3: Poster
Dienstag, 26. Februar 2008, 14:45–18:00, Poster B
Nitrogen Diffusion in Amorphous Silicon (Carbo)Nitride Probed by Neutron Reflectometry — •Erwin Hüger1, Thomas Gutberlet2, Jochen Stahn2, Michael Bruns3, and Harald Schmidt1 — 1Institut für Metallurgie, AG Materialphysik, TU Clausthal, Germany — 2Laboratorium für Neutronstreuung, ETH Zuerich & PSI, Villigen, Switzerland — 3Institut für Materialforschung III, Forschungszentrum Karlsruhe GmbH, Germany
Covalently bound amorphous solids are distinguished by extremely low self-diffusivities, which necessitates the detection of extremely short diffusion lengths in order to prevent an overlapping of crystallization and diffusion processes during annealing. We present nitrogen diffusion studies on amorphous SiNx and SiCxNy materials, which were carried out by neutron reflectometry on isotope heterostructures. Here, a sequence of 14-N and 15-N enriched layers are deposited by magnetron sputtering on silicon substrates. Due to the different coherent neutron scattering lengths of 14-N (9.37 fm) and 15-N (6.44 fm) a scattering contrast for neutrons occurs between chemically identical layers. Self-diffusivities are determined from the modification of the reflectivity due to interdiffusion of the two nitrogen isotopes after annealing at elevated temperatures. We present a systematic study on samples with 3, 5, 12 and 40 single layers and demonstrate that it is possible to detect miniumum diffusion lengths of 0.7 nm and self-diffusivities of 5 x 10−25 m2/s. The temperature and annealing time dependence of the diffusivities is analyzed and explained in the framework of structural relaxation processes.