Infinite-layer (Ca_1-xSr_xCuO₂) film growth by molecular beam epitaxy and effect of hole doping

Engineering & Materials Science

• Film growth 100%
• Molecular beam epitaxy 97%
• High energy electron diffraction 36%
• Superconductivity 32%
• Epitaxial films 31%
• Oxygenation 30%
• Vacancies 28%
• Ozone 26%
• Substitution reactions 20%
• Defects 14%
• Chemical analysis 13%
• Temperature 8%

Chemical Compounds

• Molecular Beam Epitaxy 90%
• Liquid Film 30%
• Epitaxial Film 29%
• Superconductivity 24%
• Electron Diffraction 21%
• Ozone 21%
• Drop 18%
• Substitution Reaction 13%

Physics & Astronomy

• molecular beam epitaxy 53%
• oxygenation 20%
• electrical resistivity 19%
• ozone 17%
• high energy electrons 15%
• seeds 14%
• electron diffraction 13%
• superconductivity 13%
• substitutes 12%
• defects 8%