Studies of the micromorphology of sputtered TiN thin films by autocorrelation techniques

. Autocorrelation techniques are crucial tools for the study of the micromorphology of surfaces: They provide the description of anisotropic properties and the identification of repeated patterns on the surface, facilitating the comparison of samples. In the present investigation, some fundamental c...

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Published in	European physical journal plus Vol. 132; no. 12; p. 520
Main Authors	Smagoń, Kamil, Stach, Sebastian, Ţălu, Ştefan, Arman, Ali, Achour, Amine, Luna, Carlos, Ghobadi, Nader, Mardani, Mohsen, Hafezi, Fatemeh, Ahmadpourian, Azin, Ganji, Mohsen, Grayeli Korpi, Alireza
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.12.2017 Springer Nature B.V
Subjects	Applied and Technical Physics Atomic Atomic force microscopy Autocorrelation functions Complex Systems Condensed Matter Physics Glass substrates Isotropy Magnetron sputtering Mathematical and Computational Physics Molecular Optical and Plasma Physics Parameter modification Physics Physics and Astronomy Regular Article Substrates Surface properties Surface structure Theoretical Thin films Titanium nitride
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ISSN	2190-5444 2190-5444
DOI	10.1140/epjp/i2017-11801-5

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Abstract	. Autocorrelation techniques are crucial tools for the study of the micromorphology of surfaces: They provide the description of anisotropic properties and the identification of repeated patterns on the surface, facilitating the comparison of samples. In the present investigation, some fundamental concepts of these techniques including the autocorrelation function and autocorrelation length have been reviewed and applied in the study of titanium nitride thin films by atomic force microscopy (AFM). The studied samples were grown on glass substrates by reactive magnetron sputtering at different substrate temperatures (from 25 ∘ C to 400 ∘ C , and their micromorphology was studied by AFM. The obtained AFM data were analyzed using MountainsMap Premium software obtaining the correlation function, the structure of isotropy and the spatial parameters according to ISO 25178 and EUR 15178N. These studies indicated that the substrate temperature during the deposition process is an important parameter to modify the micromorphology of sputtered TiN thin films and to find optimized surface properties. For instance, the autocorrelation length exhibited a maximum value for the sample prepared at a substrate temperature of 300 ∘ C , and the sample obtained at 400 ∘ C presented a maximum angle of the direction of the surface structure.
AbstractList	. Autocorrelation techniques are crucial tools for the study of the micromorphology of surfaces: They provide the description of anisotropic properties and the identification of repeated patterns on the surface, facilitating the comparison of samples. In the present investigation, some fundamental concepts of these techniques including the autocorrelation function and autocorrelation length have been reviewed and applied in the study of titanium nitride thin films by atomic force microscopy (AFM). The studied samples were grown on glass substrates by reactive magnetron sputtering at different substrate temperatures (from 25 ∘ C to 400 ∘ C , and their micromorphology was studied by AFM. The obtained AFM data were analyzed using MountainsMap Premium software obtaining the correlation function, the structure of isotropy and the spatial parameters according to ISO 25178 and EUR 15178N. These studies indicated that the substrate temperature during the deposition process is an important parameter to modify the micromorphology of sputtered TiN thin films and to find optimized surface properties. For instance, the autocorrelation length exhibited a maximum value for the sample prepared at a substrate temperature of 300 ∘ C , and the sample obtained at 400 ∘ C presented a maximum angle of the direction of the surface structure. Autocorrelation techniques are crucial tools for the study of the micromorphology of surfaces: They provide the description of anisotropic properties and the identification of repeated patterns on the surface, facilitating the comparison of samples. In the present investigation, some fundamental concepts of these techniques including the autocorrelation function and autocorrelation length have been reviewed and applied in the study of titanium nitride thin films by atomic force microscopy (AFM). The studied samples were grown on glass substrates by reactive magnetron sputtering at different substrate temperatures (from 25∘C to 400∘C , and their micromorphology was studied by AFM. The obtained AFM data were analyzed using MountainsMap Premium software obtaining the correlation function, the structure of isotropy and the spatial parameters according to ISO 25178 and EUR 15178N. These studies indicated that the substrate temperature during the deposition process is an important parameter to modify the micromorphology of sputtered TiN thin films and to find optimized surface properties. For instance, the autocorrelation length exhibited a maximum value for the sample prepared at a substrate temperature of 300∘C , and the sample obtained at 400∘C presented a maximum angle of the direction of the surface structure.
ArticleNumber	520
Author	Hafezi, Fatemeh Achour, Amine Stach, Sebastian Ţălu, Ştefan Smagoń, Kamil Luna, Carlos Ghobadi, Nader Ahmadpourian, Azin Mardani, Mohsen Arman, Ali Ganji, Mohsen Grayeli Korpi, Alireza
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Snippet	. Autocorrelation techniques are crucial tools for the study of the micromorphology of surfaces: They provide the description of anisotropic properties and the... Autocorrelation techniques are crucial tools for the study of the micromorphology of surfaces: They provide the description of anisotropic properties and the...
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SubjectTerms	Applied and Technical Physics Atomic Atomic force microscopy Autocorrelation functions Complex Systems Condensed Matter Physics Glass substrates Isotropy Magnetron sputtering Mathematical and Computational Physics Molecular Optical and Plasma Physics Parameter modification Physics Physics and Astronomy Regular Article Substrates Surface properties Surface structure Theoretical Thin films Titanium nitride
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Title	Studies of the micromorphology of sputtered TiN thin films by autocorrelation techniques
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