Magnetic field

Polyelectrolyte Stabilized Nanowires from Fe 3 O 4 Nanoparticles via Magnetic Field Induced Self-Assembly

Engineering / Chemistry / Materials Chemistry / Self Assembly / Magnetic field / Nanowires / CHEMICAL SCIENCES / Nanowires / CHEMICAL SCIENCES

A parametric approach to spectral–spatial EPR imaging

Engineering / Algorithms / Artificial Intelligence / Magnetic field / Nonlinear Regression / Data acquisition / Physical sciences / Magnetic Resonance / Image Enhancement / Magnetic / Signal to Noise Ratio / Continuous Wave / Data acquisition / Physical sciences / Magnetic Resonance / Image Enhancement / Magnetic / Signal to Noise Ratio / Continuous Wave

Plasmaspheric parameters as determined from whistler spectrograms: a review

Magnetic field / Total Electron Content / Electron Density / Large Scale / Electric Field / Electron Temperature / Base station / Electron Temperature / Base station

Magnetic and Magnetotransport Properties of Nanostructured Magnetic Materials

Engineering / Materials Engineering / Mechanical Engineering / Condensed Matter Physics / Applied Physics / Magnetic field / Molecular beam epitaxy / Nanocrystalline Material / Transport Properties / Mathematical Sciences / Thin Film / Mechanical Alloying / Physical sciences / Magnetic Domains / Spin Glass / Curie temperature / Single Crystal / Magnetism and Magnetic Materials / Magnetic Anisotropy / Low Temperature / Hall effect / Magnetic Resonance Coupling / Electrical And Electronic Engineering / High energy / Magnetic field / Molecular beam epitaxy / Nanocrystalline Material / Transport Properties / Mathematical Sciences / Thin Film / Mechanical Alloying / Physical sciences / Magnetic Domains / Spin Glass / Curie temperature / Single Crystal / Magnetism and Magnetic Materials / Magnetic Anisotropy / Low Temperature / Hall effect / Magnetic Resonance Coupling / Electrical And Electronic Engineering / High energy

Magnetic and Magnetotransport Properties of Nanostructured Magnetic Materials

Engineering / Materials Engineering / Mechanical Engineering / Condensed Matter Physics / Applied Physics / Magnetic field / Molecular beam epitaxy / Nanocrystalline Material / Transport Properties / Mathematical Sciences / Thin Film / Mechanical Alloying / Physical sciences / Magnetic Domains / Spin Glass / Curie temperature / Single Crystal / Magnetism and Magnetic Materials / Magnetic Anisotropy / Low Temperature / Hall effect / Magnetic Resonance Coupling / Electrical And Electronic Engineering / High energy / Magnetic field / Molecular beam epitaxy / Nanocrystalline Material / Transport Properties / Mathematical Sciences / Thin Film / Mechanical Alloying / Physical sciences / Magnetic Domains / Spin Glass / Curie temperature / Single Crystal / Magnetism and Magnetic Materials / Magnetic Anisotropy / Low Temperature / Hall effect / Magnetic Resonance Coupling / Electrical And Electronic Engineering / High energy

Magnetic and Magnetotransport Properties of Nanostructured Magnetic Materials

Engineering / Materials Engineering / Mechanical Engineering / Condensed Matter Physics / Applied Physics / Magnetic field / Molecular beam epitaxy / Nanocrystalline Material / Transport Properties / Mathematical Sciences / Thin Film / Mechanical Alloying / Physical sciences / Magnetic Domains / Spin Glass / Curie temperature / Single Crystal / Magnetism and Magnetic Materials / Magnetic Anisotropy / Low Temperature / Hall effect / Magnetic Resonance Coupling / Electrical And Electronic Engineering / High energy / Magnetic field / Molecular beam epitaxy / Nanocrystalline Material / Transport Properties / Mathematical Sciences / Thin Film / Mechanical Alloying / Physical sciences / Magnetic Domains / Spin Glass / Curie temperature / Single Crystal / Magnetism and Magnetic Materials / Magnetic Anisotropy / Low Temperature / Hall effect / Magnetic Resonance Coupling / Electrical And Electronic Engineering / High energy

Magnetic and Magnetotransport Properties of Nanostructured Magnetic Materials

Engineering / Materials Engineering / Mechanical Engineering / Condensed Matter Physics / Applied Physics / Magnetic field / Molecular beam epitaxy / Nanocrystalline Material / Transport Properties / Mathematical Sciences / Thin Film / Mechanical Alloying / Physical sciences / Magnetic Domains / Spin Glass / Curie temperature / Single Crystal / Magnetism and Magnetic Materials / Magnetic Anisotropy / Low Temperature / Hall effect / Magnetic Resonance Coupling / Electrical And Electronic Engineering / High energy / Magnetic field / Molecular beam epitaxy / Nanocrystalline Material / Transport Properties / Mathematical Sciences / Thin Film / Mechanical Alloying / Physical sciences / Magnetic Domains / Spin Glass / Curie temperature / Single Crystal / Magnetism and Magnetic Materials / Magnetic Anisotropy / Low Temperature / Hall effect / Magnetic Resonance Coupling / Electrical And Electronic Engineering / High energy

Magnetic and magneto-transport properties of double perovskite Ba 2− x Sr x FeMoO 6 system

Materials Engineering / Mechanical Engineering / Condensed Matter Physics / Nanotechnology / Magnetic field / Transport Properties / Magnetism / Magnetic Properties / Temperature Dependence / Room Temperature / Magnetism and Magnetic Materials / X Ray Diffraction Analysis / Transport Properties / Magnetism / Magnetic Properties / Temperature Dependence / Room Temperature / Magnetism and Magnetic Materials / X Ray Diffraction Analysis

Fe 2O 3/SiO 2 nanocomposites for magneto-optical applications: Nanostructural and magnetic properties

Materials Engineering / Condensed Matter Physics / Materials Science / Chemistry / Composite Materials and Structures / Nanomaterials Characterization / Magnetic Materials / Nanomaterials / Nanoparticles / Transmission Electron Microscopy / Nanotechnology / Sol-Gel Technology / Magnetic field / Nanoscience / Magnetic Properties / Non crystalline solids / Non / Silica Gel / Magneto-optical Materials / X ray diffraction / Thermogravimetric Analysis / Structural Properties / Thermal Properties / Process Parameters / Nanomaterials Characterization / Magnetic Materials / Nanomaterials / Nanoparticles / Transmission Electron Microscopy / Nanotechnology / Sol-Gel Technology / Magnetic field / Nanoscience / Magnetic Properties / Non crystalline solids / Non / Silica Gel / Magneto-optical Materials / X ray diffraction / Thermogravimetric Analysis / Structural Properties / Thermal Properties / Process Parameters

γ-Fe 2O 3/SiO 2 nanocomposites for magneto-optical applications: Nanostructural and magnetic properties

Materials Engineering / Condensed Matter Physics / Materials Science / Chemistry / Composite Materials and Structures / Nanomaterials Characterization / Magnetic Materials / Nanomaterials / Nanoparticles / Transmission Electron Microscopy / Nanotechnology / Sol-Gel Technology / Magnetic field / Nanoscience / Magnetic Properties / Non crystalline solids / Non / Silica Gel / Magneto-optical Materials / X ray diffraction / Thermogravimetric Analysis / Structural Properties / Thermal Properties / Process Parameters / Nanomaterials Characterization / Magnetic Materials / Nanomaterials / Nanoparticles / Transmission Electron Microscopy / Nanotechnology / Sol-Gel Technology / Magnetic field / Nanoscience / Magnetic Properties / Non crystalline solids / Non / Silica Gel / Magneto-optical Materials / X ray diffraction / Thermogravimetric Analysis / Structural Properties / Thermal Properties / Process Parameters

g-Fe2O3/SiO2 nanocomposites for magneto-optical applications: Nanostructural and magnetic properties

Materials Engineering / Condensed Matter Physics / Materials Science / Chemistry / Composite Materials and Structures / Nanomaterials Characterization / Magnetic Materials / Nanomaterials / Nanoparticles / Transmission Electron Microscopy / Nanotechnology / Sol-Gel Technology / Magnetic field / Nanoscience / Magnetic Properties / Non crystalline solids / Non / Silica Gel / Magneto-optical Materials / X ray diffraction / Thermogravimetric Analysis / Structural Properties / Thermal Properties / Process Parameters / Nanomaterials Characterization / Magnetic Materials / Nanomaterials / Nanoparticles / Transmission Electron Microscopy / Nanotechnology / Sol-Gel Technology / Magnetic field / Nanoscience / Magnetic Properties / Non crystalline solids / Non / Silica Gel / Magneto-optical Materials / X ray diffraction / Thermogravimetric Analysis / Structural Properties / Thermal Properties / Process Parameters

Near room temperature magneto caloric effect in V doped La0.67Ca0.33MnO3 ceramics

Materials Engineering / Condensed Matter Physics / Heat Treatment / Rietveld refinement / Magnetic field / Quantitative analysis / Crystal structure / X ray diffraction / Room Temperature / Quantitative Analysis / Alloys / Quantitative analysis / Crystal structure / X ray diffraction / Room Temperature / Quantitative Analysis / Alloys

Near room temperature magneto caloric effect in V doped La 0.67Ca 0.33MnO 3 ceramics

Materials Engineering / Condensed Matter Physics / Heat Treatment / Rietveld refinement / Magnetic field / Quantitative analysis / Crystal structure / X ray diffraction / Room Temperature / Quantitative Analysis / Alloys / Quantitative analysis / Crystal structure / X ray diffraction / Room Temperature / Quantitative Analysis / Alloys

The VKS experiment: turbulent dynamical dynamos

Magnetic field / Mathematical Sciences / Physical sciences / Dynamic System

The VKS experiment: turbulent dynamical dynamos

Magnetic field / Mathematical Sciences / Physical sciences / Dynamic System
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