Low energy electron diffraction

Structural, electronic, and magnetic properties of Fe2SiO4 fayalite: Comparison of LDA and GGA results

Engineering / Mechanical Engineering / Geochemistry / Condensed Matter Physics / Inorganic Chemistry / Solid State Chemistry / Density-functional theory / Inorganic / Scanning tunneling microscopy / Band Structure / Computer Software / DFT calculation / Mathematical Sciences / Heavy Ions Physics / Structured data / Thin Film / Physical sciences / Magnetic Properties / Magnetic Susceptibility / Domain wall / Electronic properties / Low energy electron diffraction / Electron Density / Electronic Structure / CHEMICAL SCIENCES / Rare Earth Element Mineralization / Energy Production / Curie temperature / X ray diffraction / Single Crystal / Rare Earth / Tight Binding / Model System / Structural Properties / Three Dimensional / Magnetism and Magnetic Materials / Interdisciplinary Engineering / THEORETICAL AND COMPUTATIONAL CHEMISTRY / Structural Chemistry / Ab Initio Calculation / Vibrating Sample Magnetometer / Intermetallic Compound / Zero-field-cooled / Biochemistry and cell biology / Current Mode / Magnetic Anomalies / Spin Polarization / Ion Irradiation / Solid State Chemistry / Density-functional theory / Inorganic / Scanning tunneling microscopy / Band Structure / Computer Software / DFT calculation / Mathematical Sciences / Heavy Ions Physics / Structured data / Thin Film / Physical sciences / Magnetic Properties / Magnetic Susceptibility / Domain wall / Electronic properties / Low energy electron diffraction / Electron Density / Electronic Structure / CHEMICAL SCIENCES / Rare Earth Element Mineralization / Energy Production / Curie temperature / X ray diffraction / Single Crystal / Rare Earth / Tight Binding / Model System / Structural Properties / Three Dimensional / Magnetism and Magnetic Materials / Interdisciplinary Engineering / THEORETICAL AND COMPUTATIONAL CHEMISTRY / Structural Chemistry / Ab Initio Calculation / Vibrating Sample Magnetometer / Intermetallic Compound / Zero-field-cooled / Biochemistry and cell biology / Current Mode / Magnetic Anomalies / Spin Polarization / Ion Irradiation

Structural and magnetic properties of a self-assembled spheroidal triakonta-hexanuclear Cu36 cluster

Engineering / Mechanical Engineering / Condensed Matter Physics / Inorganic Chemistry / Technology / Self Assembly / Chemical / Solid State Chemistry / Scanning tunneling microscopy / Pulsed Laser Deposition / Magnetism / Thin Film / Physical sciences / Magnetic Properties / Laser Ablation / Nickel / Low energy electron diffraction / CHEMICAL SCIENCES / Particle Size / Room Temperature / Structural Properties / Magnetism and Magnetic Materials / Thin Solid Films / Magnetic Circular Dichroism / Angular Distribution / YSZ / X ray Absorption / Zero-field-cooled / Linear dichroism / Self Assembly / Chemical / Solid State Chemistry / Scanning tunneling microscopy / Pulsed Laser Deposition / Magnetism / Thin Film / Physical sciences / Magnetic Properties / Laser Ablation / Nickel / Low energy electron diffraction / CHEMICAL SCIENCES / Particle Size / Room Temperature / Structural Properties / Magnetism and Magnetic Materials / Thin Solid Films / Magnetic Circular Dichroism / Angular Distribution / YSZ / X ray Absorption / Zero-field-cooled / Linear dichroism

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