Article Dans Une Revue Applied Physics Letters Année : 2015

Volmer-Weber growth stages of polycrystalline metal films probed by in situ and real-time optical diagnostics

Résumé

The Volmer-Weber growth of high-mobility metal films is associated with the development of a complex compressive-tensile-compressive stress behavior as the film deposition proceeds through nucleation of islands, coalescence, and formation of a continuous layer. The tensile force maximum has been attributed to the end of the islands coalescence stage, based on ex situ morphological observations. However, microstructural rearrangements are likely to occur in such films during post-deposition, somewhat biasing interpretations solely based on ex situ analysis. Here, by combining two simultaneous in situ and real-time optical sensing techniques, based on surface differential reflectance spectroscopy (SDRS) and change in wafer curvature probed by multibeam optical stress sensor (MOSS), we provide direct evidence that film continuity does coincide with tensile stress maximum during sputter deposition of a series of metal (Ag, Au, and Pd) films on amorphous SiOx. Stress relaxation after growth interruption was testified from MOSS, whose magnitude scaled with adatom mobility, while no change in SDRS signal could be revealed, ruling out possible changes of the surface roughness at the micron scale.

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hal-04978476 , version 1 (08-01-2026)

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Grégory Abadias, Lionel Simonot, Jérôme Colin, Anny Michel, S. Camelio, et al.. Volmer-Weber growth stages of polycrystalline metal films probed by in situ and real-time optical diagnostics. Applied Physics Letters, 2015, 107 (18), pp.183105. ⟨10.1063/1.4935034⟩. ⟨hal-04978476⟩
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