Keywords: B2 مواد ابررسانا; A2. Growth from high temperature solutions; B2. Superconducting materials; B1. Arsenates; A1. Solubility; A1. Diffusion;
مقالات ISI B2 مواد ابررسانا (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: B2 مواد ابررسانا; A2. Bridgman method; B1. Chalcogenides; B2. Magnetic materials; B2. Superconducting materials
Floating zone growth of Ba-substituted ruthenate Sr2âxBaxRuO4
Keywords: B2 مواد ابررسانا; B1. Ruthenium oxide; B1. Ruthenate; A2. Floating zone; A2. Single crystal growth; B2. Oxide superconducting materials; B2. Superconducting materials; B2. Unconventional superconductor;
Structural inhomogeneities in FeTe0.6Se0.4: Relation to superconductivity
Keywords: B2 مواد ابررسانا; A1. Characterization; A1. Crystal structure; A2. Growth from melt; A2. Single crystal growth; B1. Inorganic compounds; B2. Superconducting materials;
Crystal growth and properties of the non-centrosymmetric superconductor, Ru7B3
Keywords: B2 مواد ابررسانا; A2. Floating zone technique; A2. Single crystal growth; B1. Inorganic compounds; B2. Superconducting materials
Growth of (NaxKy)FezSe2 crystals by chlorides flux at low temperatures
Keywords: B2 مواد ابررسانا; A1. Phase equilibria; A2. Growth from melt; B2. Superconducting materials; Selenides
Growth of Y123 bulk crystals in Y1.5Ba2Cu3Ox system with CeO2 addition
Keywords: B2 مواد ابررسانا; A2. Single crystal growth; B1. Cuprates; B2. Superconducting materials
Growth and annealing effect of Co-doped BaFe2As2 single crystals
Keywords: B2 مواد ابررسانا; A1. Crystal structure; A2. Growth from solutions; B2. Superconducting materials
Investigation of thermal behavior and crystal growth of iron pnictides using Sn flux
Keywords: B2 مواد ابررسانا; A2. Growth from solutions; A2. Single crystal growth; B2. Superconducting materials
A study of the parameters influencing the microstructure of thick La2Zr2O7 films
Keywords: B2 مواد ابررسانا; A1. Crystal morphology; A3. Chemical solution deposition; B1. Pyrochlores; B2. Superconducting materials
Single crystal growth and physical properties of superconducting ferro-pnictides Ba(Fe, Co)2As2 grown using self-flux and Bridgman techniques
Keywords: B2 مواد ابررسانا; A1. Crystal morphology; A2. Growth from high temperature solutions; A2. Bridgman technique; B1. Ferro-pnictides; B2. Superconducting materials
Lu5Ir4Si10 whiskers: Morphology, crystal structure, superconducting and charge density wave transition studies
Keywords: B2 مواد ابررسانا; A1. Crystal structure; A1. X-ray diffraction; A2. Growth from melt; A2. Single crystal growth; B1. Rare-earth compounds; B2. Superconducting materials
Microstructural changes in epitaxial YBa2Cu3O7−δ thin films due to creation of O vacancies
Keywords: B2 مواد ابررسانا; A1. Defects; B2. Superconducting materials; A1. X-ray diffraction; A3. Physical vapor deposition processes
Investigations for the growth of large underdoped Bi2Sr2CaCu2O8+δ single crystals
Keywords: B2 مواد ابررسانا; A1. Crystal growth; A2. Floating zone technique; B1. Cuprates; B2. Superconducting materials
Superconductivity and single crystal growth of Ni0.05TaS2
Keywords: B2 مواد ابررسانا; 81.10.Dn; 74.70.-bA2. Single crystal growth; A2. Flux method; B1. Sulfides; B2. Superconducting materials
Interface-induced microstrain in La0.67Ca0.33MnO3/YBa2Cu3O7 superlattices
Keywords: B2 مواد ابررسانا; 75.47.Lx; 74.72.−h; 81.15.Fg; 61.10.−iA1. X-ray diffraction; A3. Superlattices; B1. Manganites; B2. Superconducting materials
Modeling studies of an impinging jet reactor design for hybrid physical-chemical vapor deposition of superconducting MgB2 films
Keywords: B2 مواد ابررسانا; 74.70.Ad; 74.78.âw; 81.15.Gh; A1. Computer simulation; A1. Growth models; A3. Chemical vapor deposition processes; B1. Borates; B2. Superconducting materials;
Growth of CuS platelet single crystals by the high-temperature solution growth technique
Keywords: B2 مواد ابررسانا; 74.70.Ad; 81.10.DnA2. Growth from high-temperature solutions; B1. Copper sulfide; B2. Superconducting materials
Large Bi-2212 single crystal growth by the floating-zone technique
Keywords: B2 مواد ابررسانا; 01.30.Cc; 81.10.−hA1. Crystal growth; A2. Floating-zone technique; B1. Cuprates; B2. Superconducting materials
Single crystal growth and characterizations of Cu0.03TaS2 superconductors
Keywords: B2 مواد ابررسانا; 81.10.−h; 81.10.Bk; 74.70.−bA1. Charge density wave; A2. Single crystal growth; A2. Chemical vapor transport; B2. Superconducting materials
Fabrication of MgB2 nanowire and its superconductivity
Keywords: B2 مواد ابررسانا; 81.07.−bA1. Nanostructures; B1. Magnesium diboride nanowire; B2. Superconducting materials
Phase-constituent control and superconducting properties of MgB2 films in situ grown by hot-filament chemical-vapor deposition
Keywords: B2 مواد ابررسانا; 81.15.Kk; 74.70.Ad; A1. X-ray diffraction; A3. Chemical-vapor deposition processes; B2. Superconducting materials;
Modeling studies of the chemical vapor deposition of boron films from B2H6
Keywords: B2 مواد ابررسانا; A1. Computer simulation; A1. Growth models; A3. Chemical vapor deposition processes; B1. Borates; B2. Superconducting materials
Single crystal growth of MgB2 by evaporating Mg-flux method
Keywords: B2 مواد ابررسانا; 81.10; 74.70.A; 81.40.VA1. Characterization; A1. Crystal morphology; A1. X-ray diffraction; A2. Growth from high-temperature solutions; A2. Single crystal growth; B2. Superconducting materials
Growth mechanism of EuBa2Cu3Ox single-crystalline whiskers from Ca and Te doped precursors
Keywords: B2 مواد ابررسانا; 81.10.Aj; 74.72.Bk; 68.70.+w; A1. Growth models; A2. Whisker growth; B2. Superconducting materials;
Thermodynamic and kinetic aspects of decomposition of MgB2 in vacuum: Implications for optimization of synthesis conditions
Keywords: B2 مواد ابررسانا; 81.30.Dz; 05.70.−a; 64; 68.08.Fg; 61.66.Fn; 74.70.−bA1. Free evaporation; A1. Phase diagrams; A1. Phase equilibria; B1. Inorganic compounds; B2. Superconducting materials
BiSrCaCuO compounds rich in copper synthesized by molecular beam epitaxy structural and electric properties
Keywords: B2 مواد ابررسانا; A3. Molecular beam epitaxy; A3. Thin films; B1. BiSrCaCuO; B2. Superconducting materials;
Crystal growth and perfection of RENi2B2C (RE=Ho, Tb, Y)
Keywords: B2 مواد ابررسانا; 81.10.Fq; 74.70.âb; 74.72.Ny; A1. Floating zone technique; A1. Single-crystal growth; B1. Rare-earth compounds; B2. Superconducting materials;
Crystal growth technology CGT for energy: saving energy and renewable energy
Keywords: B2 مواد ابررسانا; B1. Nitrides; B2. Nonlinear optic materials; B2. Superconducting materials; B3. Light emitting diodes; B3. Solar cells; B3. Solid state lasers;
Crystal growth of the new Sr2RuO4-Sr3Ru2O7 eutectic system by a floating-zone method
Keywords: B2 مواد ابررسانا; 71.27.+a; 81.10.Fq; 64.75.+g; 61.10.âI; 74.70.Pq; A2. Floating zone technique; A2. Growth from melt; B1. Perovskites; B2. Magnetic materials; B2. Superconducting materials;
Electron microscopy studies of epitaxial MgB2 superconducting thin films grown by in situ reactive evaporation
Keywords: B2 مواد ابررسانا; 68.37.Lp; 68.55.Jk; 74.70.Ad; A1. Characterization; A1. Crystal morphology; B2. Superconducting materials;
Growth features of RENi2B2C (RE=Y, Ho, Tb) single crystals
Keywords: B2 مواد ابررسانا; 81.10.Fq; 74.70.âb; 74.72.Ny; A1. Floating zone technique; A1. Single crystal growth; B1. Rare earth compounds; B2. Superconducting materials;