Yazar "Uçkun, Mehmet" için listeleme
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Characterizations of FeCl/Cu superlattices sputtered at low and high deposition rates of ferromagnetic layer
Karpuz, Ali; Köçkar, Hakan; Uçkun, Mehmet; Eşiyok, Mesut (Elsevier Science Bv, 2015)FeCl/Cu superlattices was grown using a dc magnetron sputtering at low (0.02 nm/s) and high (0.08 nm/s) deposition rates of ferromagnetic layer, and the properties of the superlattices were investigated. Structural ... -
Impact of deposition rate on the structural and magnetic properties of sputtered ni/cu multilayer thin films
Karpuz, Ali; Çölmekçi, Salih; Köçkar, Hakan; Kuru, Hilal; Uçkun, Mehmet (Walter De Gruyter Gmbh, 2018)The structural and corresponding magnetic properties of Ni/Cu films sputtered at low and high deposition rates were investigated as there is a limited number of related studies in this field. 5[Ni(10 nm)/Cu(30 nm)] multilayer ... -
A multi-channel temperature and humidity measurement system based on a micro-controller
Uçkun, Mehmet; Küçükdermenci, Serhat (Natl Inst Optoelectronics, 2016)In recent years, microcontrollers are devices used widely for measuring physical quantities, processing measured values and controlling systems. Their specifications like conversion into embedded systems, quite convenient ... -
Parametric characterizations of sputtered Fe/Al multilayer thin films
Karpuz, Ali; Köçkar, Hakan; Çölmekçi, Salih; Uçkun, Mehmet (Springer, 2020)This study contains parametric characterizations of four different series of Fe/Al multilayer thin films sputtered under thicknesses of Al layers (7.5, 35 and 95 nm), deposition rates (0.02 and 0.06 nm/s), Fe layer thicknesses ... -
Ternary FeCrNi martensitic thinfilms sputtered on aflexible substrate froma single AISI 304 austenitic stainless steel source: Effect of deposition rate onstructural and magnetic properties
Kaplan, Nadir; Köçkar, Hakan; Karpuz, Ali; Kuru, Hilal; Uçkun, Mehmet (Elsevier Sci Bv, 2019)The effect of deposition rates on the structural and magnetic properties of the ternary FeCrNi martensitic thin films produced via a source material made of the commercial AISI 304 austenitic stainless steel was investigated. ...