Surface Morphology and Crystal Structures of As-Grown BiSrCaCuO Thin Films Prepared by RF Magnetron Sputtering from Three Targets
スポンサーリンク
概要
- 論文の詳細を見る
As-grown superconducting BiSrCaCuO thin films were grown at 650°C on MgO(100) substrates by RF magnetron sputtering from three targets. The substrate was rotated over the three targets: Bi3Sr2Ca2Cu3Ox, Bi2Sr3Ca3Cu3Ox and Bi2Sr2Ca2Cu4.5Ox. By adjusting the staying time of the substrate over each target, it was possible to precisely control the chemical composition of the thin film. This paper describes the superconducting properties, surface morphology and crystal structures of sputtered films formed by varying the staying time. X-ray diffraction measurement showed that the crystal structure could be changed by varying the staying time. The film with the optimum composition showed zero resistivity at 75 K and had an exceedingly smooth surface. This film had the mixed phase which is considered to be a stacked structure consisting of a high-$T_{\text{c}}$ phase and a low-$T_{\text{c}}$ phase.
- INSTITUTE OF PURE AND APPLIED PHYSICSの論文
- 1989-09-20
著者
-
Yokoyama Kazuo
Materials and Electronic Devices Laboratory, Mitsubishi Electric Corporation
-
Tanioku Masami
Central Research Laboratory Mitsubishi Electric Corporation
-
Kojima Kazuyoshi
Central Research Laboratory Mitsubishi Electric Corporation
-
Hamanaka Koichi
Central Research Laboratory Mitsubishi Electric Corporation
-
Kuroda Ken'ichi
Central Research Laboratory, Mitsubishi Electric Corporation, Tsukaguchi, Amagasaki, Hyogo 661
-
Hamanaka Koichi
Central Research Laboratory, Mitsubishi Electric Corporation, Tsukaguchi, Amagasaki, Hyogo 661
-
Yokoyama Kazuo
Material Research Laboratory, Mitsubishi Electric Corporation, Tsukaguchi, Amagasaki, Hyogo 661
-
Kojima Kazuyoshi
Central Research Laboratory, Mitsubishi Electric Corporation, Tsukaguchi, Amagasaki, Hyogo 661
関連論文
- 45° Grain Boundary Junctions in (001)-Oriented BiSrCaCuO Films
- (01n)-Oriented BiSrCaCuO Thin Films Formed on CeO_2 Buffer Layers
- Microscopic Study of an Artificial Grain Boundary Josephson Junction in a BiSrCaCuO Thin Film Formed on a SrTiO_3 (110) Substrate Using a MgO Buffer Layer
- Artificial Grain Boundary Junctions in BiSrCaCuO Thin Films with (11n) and (001) Orientation
- Dependence of Crystal Orientation of BiSrCaCuO Thin Films on Off-Angles of Vicinal SrTiO_3 (110) Surfaces
- Crystal Orientation of BiSrCaCuO (11n) Thin Films Determined by X-ray Asymmetric Reflection
- Microscopic Study on (11n)-Oriented BiSrCaCuO Films by Cross-Sectional Transmission Electron Microscopy
- BiSrCaCuO Thin Film Grown on SrTiO_3 Substrate with Off-Oriented (110) Surface
- Bi_2(Sr, Ca)_3Cu_2O_x and Bi_2(Sr, Ca)_4Cu_3O_x Thin Films with (11n) Orientation
- Effect of Ethane Addition to Argon in Etching of BiSrCaCuO Superconducting Thin Films
- (11n)-Oriented BiSrCaCuO Thin Film Formed on SrTiO_3(110) Substrate by RF Magnetron Sputtering
- Carrier-Temperature and Wavelength-Switching in GaAs Single-Quantum-Well Baser Diode
- Effect of Growth Temperature on Superconducting Phases of As-Grown BiSrCaCuO Thin Film Formed by RF Magnetron Sputtering
- Preparation of Ca-Doped YBaCuO Thin Films Containing 248 Phase by RF Magnetron Sputtering
- Formation of As-Grown BiSrCaCuO Thin Films by Sputtering Three Targets Heavily Doped with Pb in Atmospheres of O_2 and N_2O/O_2 Mixtures
- Superconductivity of Bi System Thin Films Formed by Consecutively Sputtering Three Pb-Doped Targets of Slightly Different Compositions
- Superstructure in Thin Films of Bi-Based Compounds on MgO
- Planar DC SQUID with a Damping Resistor
- Quasiparticle-Injected Superconducting Weak Links and Their Application to dc SQUID
- The rf Response of Quasiparticle Injected Superconducting Weak Links
- As-Grown Superconductivity of BiSrCaCuO Thin Films Prepared by Magnetron Sputtering with Three Targets: Bi_(SrCa)_2Cu_3O_x, Bi_2(SrCa)_Cu_3O_x and Bi_2(SrCa)_2Cu_O_x (a = b = 1, c = 1.5)
- Formation of As-Grown YBaCuO Thin Films by RF Magnetron Sputtering from Three Targets
- Surface Morphology and Crystal Structures of As-Grown BiSrCaCuO Thin Films Prepared by RF Magnetron Sputtering from Three Targets