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Influence of Deposition Parameters on the Structure and Optical Property of Zn(S,O) Films
Du-Cheng Tsai,Bing-Hau Kuo,Zue-Chin Chang,Erh-Chiang Chen,Fuh-Sheng Shieu 대한금속·재료학회 2017 METALS AND MATERIALS International Vol.23 No.1
This paper presents the influence of process parameters, including sputtering power, oxygen partial pressure (RO), and substrate temperature on the optical property of Zn(S,O) thin films fabricated by radio frequency magnetron sputtering technology and deposited on glass substrates. The chemical composition, structural and optical properties of the samples were investigated by electron spectroscopy for chemical analysis, X-ray diffraction, and spectrophotometer. All the films mainly exhibited β-ZnS phase with (111) preferred orientation. [S]/([S]+[O]) ratio increased at high sputtering power, low RO, and low substrate temperature. Moderate ranges in sputtering power and substrate temperature and low RO resulted in large grain size. Adatoms are expected to exhibit increased mobility under these conditions. Average transmittance exceeded 75% in the visible wavelength region. Bandgap under these conditions was dominated strongly by the change in grain size and [S]/([S]+[O]) ratio. Optical properties of Zn(S,O) thin films could be modified, which is promising for optoelectronic applications.
Enhancement of the Polar Coercive Force for Annealed Co/Ir(111) Ultrathin Films
Wen-Yuan Chan,Du-Cheng Tsai,Wei-Hsiang Chen,Cheng-Hsun-Tony Chang,Jyh-Shen Tsay 한국물리학회 2013 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.62 No.12
The alloy formation and the magnetic properties of Co/Ir(111) ultrathin films have been investigated. As the temperature is increased above 400 K, interdiffusion of Co and the Ir substrate occurs. Due to a compositional change in the surface layers, the polar coercive force is greatly enhanced. At temperatures above 600 K, magnetic hysteresis appears only in the polar configuration. Thisshows that the easy axis of the magnetization of Co/Ir(111) may be stabilized in the direction ofthe surface normal by thermal-annealing treatments. From systematic investigations of Co/Ir(111)ultrathin films thinner than 4 monolayers, a magnetic phase diagram has been established. Accordingto the compositional changes and related magnetic properties, the phase diagram can beseparated into three regions. In region I at temperatures below 400 K, Co films are ferromagnetic. In region II where atomic interdiffusion occurs in the surface layers, an enhanced polar coerciveforce is observed. The phase transition from phase I to II is related to the interdiffusion betweenthe Co overlayer and the iridium substrate. In region III for low coverage or at high temperatures,a nonferromagnetic behavior is observed. The phase transition from phase II to III is mainly dueto the reduced atomic percent of cobalt in the Co-Ir alloy and to the lowered Curie temperaturecaused by a reduction in the thickness of the magnetic layers.