Balanced magnetic field in magnetron sputtering systems

Голосов, Д. А.

doi:10.1016/j.vacuum.2017.02.018

Cited by 22 publications

(9 citation statements)

References 19 publications

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“…Chromium targets (∅ 90 mm and thickness of 8 mm; JSC Polema, Russia) with purity of 99.95 % were used. The 4.5 μm thick Cr coating with dense microstructure was obtained by the multi cathode magnetron sputtering system with "closed" [18,28,29] magnetic field and direct current (DC) power supply (Applied Electronics LLC, Russia). The high rate deposition of columnar Cr coatings (thickness of 6 and Note: Qtarget power density; tdeposition time; U bbias potential; j sion current density on a substrate; hcoating thickness; T subsubstrate temperature.…”

Section: Coating Depositionmentioning

confidence: 99%

Oxidation kinetics of Cr-coated zirconium alloy: Effect of coating thickness and microstructure

et al. 2020

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Section: Coating Depositionmentioning

confidence: 99%

Oxidation kinetics of Cr-coated zirconium alloy: Effect of coating thickness and microstructure

et al. 2020

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“…Films were deposited by reactive direct-current magnetron sputtering (R-DCMS) in a cylindrical high-vacuum (cryo-pumped) chamber, 36 cm in height and 44 cm in diameter with a base pressure of ∼5 × 10 −7 Torr. The substrate and chamber walls were maintained at a base temperature of ∼ 30 • C. Deposition was conducted using a 76 mm diameter planar magnetron gun (MAK series from MeiVac inc.) with a geometrical unbalance coefficient of ∼1.2 [20].…”

Section: Methodsmentioning

confidence: 99%

Tantalum Suboxide Films with Tunable Composition and Electrical Resistivity Deposited by Reactive Magnetron Sputtering

et al. 2022

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Tantalum-based films with tailored composition, density, and electrical resistivity are of interest for next generation hohlraums for magnetized indirect-drive inertial confinement fusion. Here, we use reactive direct-current magnetron sputtering to deposit tantalum suboxide films with O content in the range of 46–71 at.%. In contrast to a common approach involving varying reactive gas contents, compositional control is achieved kinetically by changing the total chamber pressure and the deposition rate, while keeping the working gas mix of Ar-5%O2 constant. The resultant films are X-ray amorphous with electrical resistivity varying by over seven orders of magnitude. The dominant conduction mechanism changes from metallic to activated tunneling above ∼55 at.% of O, which is characterized by a sharp increase in resistivity and a decrease in the carrier density at low temperatures.

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“…In contrast, only a few magnetic field lines are closed between the inner and outer poles in an unbalanced MS magnetic system. The unclosed magnetic field lines are radially directed towards the walls of the sputtering chamber [22]. The magnetic fields in balanced and unbalanced MS are schematized in Figure 2.…”

Section: Magnetron Sputtering Coatingmentioning

confidence: 99%

Section: Magnetron Sputtering Coatingmentioning

confidence: 99%

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Magnetron Sputtering High-Entropy Alloy Coatings: A Mini-Review

Padamata

Yasinskiy

Yanov

et al. 2022

Metals

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Surface coatings can enhance the substrate material’s properties and increase its lifetime. HEA-based materials have been extensively investigated as coating materials due to their superior hardness, excellent oxidation and corrosion resistance, effective diffusion barrier properties and wear resistance. Magnetron sputtering has been regarded as one of the most efficient methods for the deposition of HEA-based thin films. Metallic- and nitride-based HEA coatings can be easily deposited by introducing N2 gas along with the Ar in the reaction chamber. The parameters such as target composition, bias voltage, sputtering power and notably, gas flow ratio, influence the thin film’s morphology and mechanical properties.

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Balanced magnetic field in magnetron sputtering systems

Cited by 22 publications

References 19 publications

Oxidation kinetics of Cr-coated zirconium alloy: Effect of coating thickness and microstructure

Oxidation kinetics of Cr-coated zirconium alloy: Effect of coating thickness and microstructure

Tantalum Suboxide Films with Tunable Composition and Electrical Resistivity Deposited by Reactive Magnetron Sputtering

Magnetron Sputtering High-Entropy Alloy Coatings: A Mini-Review

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