Journal ArticleDOI
Intrinsic stress in sputter-deposited thin films
TLDR
A review of the sputtered film stress literature shows that the intrinsic stress can be tensile or compressive depending on the energetics of the deposition process as discussed by the authors, and extensive experimental evidence show a direct link between the particle flux and energy striking the condensing film, which determines the nature and magnitude of the stress.Abstract:
A review of the sputtered film stress literature shows that the intrinsic stress can be tensile or compressive depending on the energetics of the deposition process. Modeling studies of film growth and extensive experimental evidence show a direct link between the energetics of the deposition process and film microstructure, which in turn determines the nature and magnitude of the stress. The fundamental quantities are the particle flux and energy striking the condensing film, which are a function of many process parameters such as pressure (discharge voltage), target/sputtering gas mass ratio, cathode shape, bias voltage, and substrate orientation. Tensile stress is generally observed in zone 1-type, porous films and is explained in terms of the grain boundary relaxation model, whereas compressive stress, observed in zone T-type, dense films, is interpreted in terms of the atomic peening mechanism. Modeling of the atomic peening mechanism and experimental data indicate that the normalized moment...read more
Citations
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Proceedings ArticleDOI
Role of Incorporated Hydrogen and Sputtered Grain Size on Tin Whiskering
TL;DR: The role of hydrogen in the growth of tin whiskers was investigated in this article, where a roughly uniform distribution of 2 × 1019/cm3 protons were injected into 1.5 micron sputtered tin films by a particle accelerator.
Journal ArticleDOI
Microstructure and mechanical properties of Cr films deposited with different peak powers by high-power impulse magnetron sputtering
TL;DR: In this article, chromium (Cr) films were deposited on 316-L stainless steel substrates and silicon wafers with different peak powers by HIPIMS and the relationship between peak target power and properties of Cr films was explored in detail.
Journal ArticleDOI
Stress-Assisted Thermal Diffusion Barrier Breakdown in Ion Beam Deposited Cu/W Nano-Multilayers on Si Substrate Observed by in Situ GISAXS and Transmission EDX.
León Romano Brandt,Enrico Salvati,Enrico Salvati,Didier Wermeille,Chrysanthi Papadaki,Eric Le Bourhis,Alexander M. Korsunsky +6 more
TL;DR: In this paper, the thermal stability of Cu/W nano-multilayers deposited on a Si substrate using ion beam deposition was analyzed in situ by GISAXS and transmission EDX.
Book ChapterDOI
6 – Physical Sputtering and Sputter Deposition (Sputtering)
TL;DR: The physical sputtering process involves the physical vaporization of atoms from a surface by momentum transfer from bombarding energetic atomic-sized particles as mentioned in this paper, which is referred to as sputter deposition.
References
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Journal ArticleDOI
Theory of Sputtering. I. Sputtering Yield of Amorphous and Polycrystalline Targets
TL;DR: In this article, an integrodifferential equation for the sputtering yield is developed from the general Boltzmann transport equation, and solutions of the integral equation are given that are asymptotically exact in the limit of high ion energy as compared to atomic binding energies.
Journal ArticleDOI
Mechanical properties of thin films
TL;DR: In this paper, it is shown that very large stresses may be present in the thin films that comprise integrated circuits and magnetic disks and that these stresses can cause deformation and fracture to occur.
Journal ArticleDOI
Influence of apparatus geometry and deposition conditions on the structure and topography of thick sputtered coatings
TL;DR: Two cylindrically symmetric and complementary sputtering geometries, the post and hollow cathodes, were used to deposit thick coatings of various metals (Mo, Cr, Ti, Fe, Cu, and Al-alloy) onto glass and metallic substrates at deposition rates of 1000-2000 A/min under various conditions of substrate temperature, argon pressure, and plasma bombardment as mentioned in this paper.
Journal ArticleDOI
High Rate Thick Film Growth
TL;DR: In this paper, a review of the physical vapor deposition (PVD) of thin films is presented, focusing mainly on evaporation and sputtering processes and the physics of their growth and structure.