Keywords: اپیتاکسی پرتو مولکولی; High-temperature superconductivity; Cuprates; Molecular beam epitaxy; Superfluid density; Electronic nematicity;
مقالات ISI اپیتاکسی پرتو مولکولی (ترجمه نشده)
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Keywords: اپیتاکسی پرتو مولکولی; Phase field; Molecular beam epitaxy; Energy stable; Linear scheme;
Keywords: اپیتاکسی پرتو مولکولی; A1. Low dimensional structures; A3. Molecular beam epitaxy; B1. Gallium compounds; B2. Semiconducting III-V materials; B2. Quantum dots; B3. Heterojunction semiconductor devices; Molecular beam epitaxy; Heterostructure; Quantum dot; Spin; Nuclear spin; Qu
Keywords: اپیتاکسی پرتو مولکولی; Atomic diffraction; Molecular beam epitaxy; GaAs β2(2 Ã 4) reconstruction;
Keywords: اپیتاکسی پرتو مولکولی; Combustion; Explosions; Molecular beam epitaxy; Oxidation; Phosphorus; Industrial accidents;
Keywords: اپیتاکسی پرتو مولکولی; Graphene; Fe; Molecular beam epitaxy; Low temperature growth;
Keywords: اپیتاکسی پرتو مولکولی; Atomic Force Microscope; AFM; Nanometric length scale; Fractal dimension; Morphology; Scaling analysis; DNA; PDI8-CN2; Organic films; Submonolayer; Entangle; Height-Height Correlation Function; Persistence length; Box counting; Segmentation; Vectorization
Keywords: اپیتاکسی پرتو مولکولی; 2D; Two-Dimensional; 2DEG; Two-Dimensional Electron Gas; 2DPS; Two-Dimensionally-Periodic Slab; 3D; Three-Dimensional; AES; Auger Electron Spectroscopy; AFM; Atomic Force Microscopy; ARUPS; Angle-Resolved Ultraviolet Photoemission Spectroscopy; B3LYP; Bec
Keywords: اپیتاکسی پرتو مولکولی; Raman scattering; Aluminium nitride; Molecular beam epitaxy
Keywords: اپیتاکسی پرتو مولکولی; Molecular beam epitaxy; Magnesium ferrite; MgFe2O4; Epitaxial film; Magnetic moment; Stoichiometry;
Keywords: اپیتاکسی پرتو مولکولی; Al epitaxial films; Sapphire substrate; Molecular beam epitaxy; Nucleation mechanism
Keywords: اپیتاکسی پرتو مولکولی; Molecular beam epitaxy; Scanning tunneling microscopy; Electron diffraction; Vanadium; Oxygen induced surface reconstruction; Segregation; Self-organized growth;
Keywords: اپیتاکسی پرتو مولکولی; Scanning tunneling microscopy and spectroscopy; X-ray photoemission spectroscopy; Molecular beam epitaxy; Metal-oxide interfaces; Oxide surfaces;
Keywords: اپیتاکسی پرتو مولکولی; AES; auger electron spectroscopy; AFM; atomic force microscopy; APDBs; antiphase domain boundaries; CEMS; conversion electron Mössbauer spectroscopy; CTR; crystal truncation rod; DBT; distorted bulk truncation; DFT; density functional theory; DFT+U; dens
Keywords: اپیتاکسی پرتو مولکولی; Thin film deposition; Irreversible aggregation phenomena; Molecular beam epitaxy;
Keywords: اپیتاکسی پرتو مولکولی; Thermoelectrics; Heterojunction barrier; Molecular beam epitaxy; Unipolar;
Keywords: اپیتاکسی پرتو مولکولی; Photodetector; Ge self-assembled quantum dots; Microdisk; Molecular beam epitaxy;
Keywords: اپیتاکسی پرتو مولکولی; AES; Auger electron spectroscopy; BGO; Bismuth germanium oxide (Bi4Ge3O12); CRB; cosmic radiation background; CVD; chemical vapor deposition; ERD(A); elastic recoil detection (analysis); DFT; density functional theory; FET; field effect transistor; FGA; f
Keywords: اپیتاکسی پرتو مولکولی; Ferroelectric oxides; Molecular beam epitaxy; Barium titanate; Epitaxial oxides;
Keywords: اپیتاکسی پرتو مولکولی; Molecular beam epitaxy; Disordered silicon; Defects; Electron spin resonance; Microstructure;
Keywords: اپیتاکسی پرتو مولکولی; 3c2e; 3-centre-2-electron bond; ALD; atomic layer deposition; BDEAS; bis(diethylamino)silane; CCP; capacitively-coupled plasma; CpMe; η5-monomethylcyclopentadienyl; Cp*; η5-pentamethylcyclopentadienyl; Cpx; a general substituted η5-cyclopentadienyl lig
Keywords: اپیتاکسی پرتو مولکولی; InN nanocolumns; Molecular beam epitaxy; Catalyst thickness; Vapor-liquid-solid method
Self-organized ZnMgO nanocolumns with ZnO/ZnMgO quantum wells on c-plane Al2O3 substrates by MBE: Growth conditions and properties
Keywords: اپیتاکسی پرتو مولکولی; Molecular beam epitaxy; Zinc oxide; Photoluminescence;
Incorporation of hydrogen into MBE-grown dilute nitride GaInNAsSb layers in a MOCVD growth ambient
Keywords: اپیتاکسی پرتو مولکولی; Multi-junction solar cell; Dilute nitride; Molecular beam epitaxy; Metalorganic chemical vapor deposition; Hydrogen; Annealing;
Study of extending carrier lifetime in ZnTe quantum dots coupled with ZnCdSe quantum well
Keywords: اپیتاکسی پرتو مولکولی; Molecular beam epitaxy; Quantum dots; Time resolved photoluminescence; Recombination dynamics;
Direct epitaxial integration of the ferromagnetic semiconductor EuO with Si(1â¯1â¯1)
Keywords: اپیتاکسی پرتو مولکولی; Silicon spintronics; Spin injection; Ferromagnetic semiconductor; EuO; Epitaxial integration; Molecular beam epitaxy;
P-type single-crystalline ZnO films obtained by (Na,N) dual implantation through dynamic annealing process
Keywords: اپیتاکسی پرتو مولکولی; P-type single-crystalline ZnO films; Ion implantation; Molecular beam epitaxy; Dynamic annealing;
Nanostructures with Ge-Si quantum dots for infrared photodetectors
Keywords: اپیتاکسی پرتو مولکولی; Molecular beam epitaxy; Heterostructures; Dark current; Noise; Detectivity;
Composition uniformity characterization and improvement of AlGaAs/GaAs grown by molecular beam epitaxy
Keywords: اپیتاکسی پرتو مولکولی; Molecular beam epitaxy; Semiconducting III-V materials; Uniformity; Photoluminescence; High resolution X-ray diffraction;
MBE-growth of CdTe on GaSb substrates: A case study on the influence of substrate quality
Keywords: اپیتاکسی پرتو مولکولی; Molecular beam epitaxy; Semiconducting II-VI materials; X-ray diffraction; Single crystal growth; Substrates;
Size and shape tunability of self-assembled InAs/GaAs nanostructures through the capping rate
Keywords: اپیتاکسی پرتو مولکولی; Molecular beam epitaxy; Quantum dot; Quantum ring; Wetting layer; Capping rate; Dissolution process;
Structure and magnetic properties of CrN thin films on La0.67Sr0.33MnO3
Keywords: اپیتاکسی پرتو مولکولی; Molecular beam epitaxy; CrN; LSMO; Heterojunction; Magnetic property;
Low dislocation density MBE process for CdTe-on-GaSb as an alternative substrate for HgCdTe growth
Keywords: اپیتاکسی پرتو مولکولی; Infrared materials; HgCdTe; Alternative substrates; GaSb; Molecular beam epitaxy;
2D scaling behavior of nanotextured GaN surfaces: A case study of hillocked and terraced surfaces
Keywords: اپیتاکسی پرتو مولکولی; Molecular beam epitaxy; Metal organic vapor phase epitaxy; Atomic force microscopy; Roughness; Height-height correlation function; Scaling behavior;
Molecular beam epitaxial growth, transmittance and photoluminescence spectra of zinc-blende CdTe thin films with high-quality on perovskite SrTiO3 (1â¯1â¯1) substrates
Keywords: اپیتاکسی پرتو مولکولی; Single crystal growth; Molecular beam epitaxy; Tellurites; Semiconducting II-VI materials;
Understanding arsenic incorporation in CdTe with atom probe tomography
Keywords: اپیتاکسی پرتو مولکولی; CdTe; As doping; Atom probe tomography; Scanning transmission electron microscopy; Molecular beam epitaxy; Single crystalline;
The growth of bismuth on Bi2Se3 and the stability of the first bilayer
Keywords: اپیتاکسی پرتو مولکولی; Topological insulators; Molecular beam epitaxy; Thin films; Low energy ion scattering; Surface phenomena;
Wavelength extension in GaSbBi quantum wells using delta-doping
Keywords: اپیتاکسی پرتو مولکولی; Molecular beam epitaxy; Delta-doping; GaSbBi; Photoluminescence;
Hydrogen diffusion in GaN:Mg and GaN:Si
Keywords: اپیتاکسی پرتو مولکولی; Hydrogen diffusion; Metalorganic Vapor Phase Epitaxy; Molecular Beam Epitaxy; Nitrides; Laser diodes;
Transition of dominant lattice sites of Mg in InN:Mg revealed by Raman scattering
Keywords: اپیتاکسی پرتو مولکولی; Mg-doped InN; Molecular beam epitaxy; Raman scattering; Local vibrational modes;
Growth of Bi2Se3 topological insulator thin film on Ge(1Â 1Â 1) substrate
Keywords: اپیتاکسی پرتو مولکولی; Topological insulator; Thin film growth; Molecular beam epitaxy; Bi2Se3; Ge(1Â 1Â 1);
Photoluminescence properties of (Al,Ga)N nanostructures grown on Al0.5Ga0.5N (0001)
Keywords: اپیتاکسی پرتو مولکولی; Quantum dots; AlGaN; Ultraviolet; Molecular beam epitaxy;
MBE growth of high quality HgCdSe on GaSb substrates
Keywords: اپیتاکسی پرتو مولکولی; Infrared materials; HgCdSe; GaSb; Molecular beam epitaxy;
Growth and optical characteristics of InAs quantum dot structures with tunnel injection quantum wells for 1.55â¯Î¼m high-speed lasers
Keywords: اپیتاکسی پرتو مولکولی; Atomic force microscopy; Molecular beam epitaxy; Nanostructures; Semiconducting indium compounds; Quantum dots; Quantum wells;
Epitaxial growth of p-InAs on GaSb with intense terahertz emission under 1.55-μm femtosecond laser excitation
Keywords: اپیتاکسی پرتو مولکولی; Molecular beam epitaxy; III-V semiconductors; Indium arsenide; Terahertz;
Growth of self-aligned PtSi silicide nanowires and nanoclusters on p-type Si (111) by molecular beam epitaxy
Keywords: اپیتاکسی پرتو مولکولی; Molecular beam epitaxy; Scanning transmission electron microscopy; Silicon steps; Platinum silicide; Nanowires;
Coherent InAs/CdSe and InAs/ZnTe/CdSe heterovalent interfaces: Electronic and chemical structure
Keywords: اپیتاکسی پرتو مولکولی; heterovalent interface; InAs/ZnTe; InAs/CdSe; molecular beam epitaxy; Soft x-ray photoelectron spectroscopy; energy diagrams; chemical bonds;
Epitaxial growth of low temperature GaN using metal migration enhanced epitaxy for high-quality InGaN/GaN heterojunctions
Keywords: اپیتاکسی پرتو مولکولی; InGaN/GaN quantum well design; Molecular beam epitaxy; Metal migration enhanced epitaxy; Low temperature growth;
Impact of a SiGe interfacial layer on the growth of a SiC layer on Si with voids at the interface
Keywords: اپیتاکسی پرتو مولکولی; SiC; Voids; Molecular beam epitaxy; SiGe interfacial layer;
Germanium growth on electron beam lithography patterned Si3N4/Si(001) substrate using molecular beam epitaxy
Keywords: اپیتاکسی پرتو مولکولی; Molecular beam epitaxy; Electron beam lithography; Ge nanostructures; Residual stress;