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Main Authors: Sakhonenkov, Sergei S., Gaisin, Aidar U., Petrova, Anita O., Matveev, Vasilii A., Filatova, Elena O.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2605.02788
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author Sakhonenkov, Sergei S.
Gaisin, Aidar U.
Petrova, Anita O.
Matveev, Vasilii A.
Filatova, Elena O.
author_facet Sakhonenkov, Sergei S.
Gaisin, Aidar U.
Petrova, Anita O.
Matveev, Vasilii A.
Filatova, Elena O.
contents Ti/Cu multilayers with periods ranging from 4 to 52.5 nm were synthesized by magnetron sputtering to examine how the period thickness affects morphology, crystallization, texture development, and preservation of periodicity. The structural evolution was analyzed using complementary transmission electron microscopy techniques with X-ray diffraction and reflectometry. The results show that the period thickness governs the balance between interfacial transition-region formation, crystallization, and growth-induced morphological instabilities. At the smallest period of 4 nm, the structure has strongly reduced periodic contrast, which may be attributed to extended interfacial regions, partial Cu-Ti intermixing, and suppression of well-defined layer formation. At 10 nm, the multilayer structure is preserved but remains affected by accumulated roughness and layer waviness; local modification of the Cu lattice is suggested to be significant relative to the bilayer period, likely due to mixed Cu-Ti interfacial regions and/or coherent strain. With increasing period, the multilayers become more regular, and the layers show progressive crystallization and texture development during growth. Cu crystallizes predominantly in the fcc structure with a strong Cu(111) contribution, whereas Ti exhibits a more complex structural evolution, from an amorphous or weakly crystallized state near the substrate toward a more ordered and textured state closer to the surface.
format Preprint
id arxiv_https___arxiv_org_abs_2605_02788
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Structural evolution of Ti/Cu multilayers as a function of period thickness
Sakhonenkov, Sergei S.
Gaisin, Aidar U.
Petrova, Anita O.
Matveev, Vasilii A.
Filatova, Elena O.
Materials Science
Ti/Cu multilayers with periods ranging from 4 to 52.5 nm were synthesized by magnetron sputtering to examine how the period thickness affects morphology, crystallization, texture development, and preservation of periodicity. The structural evolution was analyzed using complementary transmission electron microscopy techniques with X-ray diffraction and reflectometry. The results show that the period thickness governs the balance between interfacial transition-region formation, crystallization, and growth-induced morphological instabilities. At the smallest period of 4 nm, the structure has strongly reduced periodic contrast, which may be attributed to extended interfacial regions, partial Cu-Ti intermixing, and suppression of well-defined layer formation. At 10 nm, the multilayer structure is preserved but remains affected by accumulated roughness and layer waviness; local modification of the Cu lattice is suggested to be significant relative to the bilayer period, likely due to mixed Cu-Ti interfacial regions and/or coherent strain. With increasing period, the multilayers become more regular, and the layers show progressive crystallization and texture development during growth. Cu crystallizes predominantly in the fcc structure with a strong Cu(111) contribution, whereas Ti exhibits a more complex structural evolution, from an amorphous or weakly crystallized state near the substrate toward a more ordered and textured state closer to the surface.
title Structural evolution of Ti/Cu multilayers as a function of period thickness
topic Materials Science
url https://arxiv.org/abs/2605.02788