Engineering / Applied Physics / Mathematical Sciences / Applied / Physical sciences / Magnetic Properties / Magnetic Susceptibility / Iron Oxide / Iron / Particle Size / Porous Material / Experimental Data / Particle Size Distribution / Zero-field-cooled / Hysteresis Loop / Magnetic Properties / Magnetic Susceptibility / Iron Oxide / Iron / Particle Size / Porous Material / Experimental Data / Particle Size Distribution / Zero-field-cooled / Hysteresis Loop
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
Engineering / Applied Physics / Mathematical Sciences / Applied / Physical sciences / Magnetic Properties / Magnetic Susceptibility / Iron Oxide / Iron / Particle Size / Porous Material / Experimental Data / Particle Size Distribution / Zero-field-cooled / Hysteresis Loop / Magnetic Properties / Magnetic Susceptibility / Iron Oxide / Iron / Particle Size / Porous Material / Experimental Data / Particle Size Distribution / Zero-field-cooled / Hysteresis Loop
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
Engineering / Applied Physics / Mathematical Sciences / Applied / Physical sciences / Magnetic Properties / Magnetic Susceptibility / Iron Oxide / Iron / Particle Size / Porous Material / Experimental Data / Particle Size Distribution / Zero-field-cooled / Hysteresis Loop / Magnetic Properties / Magnetic Susceptibility / Iron Oxide / Iron / Particle Size / Porous Material / Experimental Data / Particle Size Distribution / Zero-field-cooled / Hysteresis Loop
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
Engineering / Applied Physics / Mathematical Sciences / Applied / Physical sciences / Magnetic Properties / Magnetic Susceptibility / Iron Oxide / Iron / Particle Size / Porous Material / Experimental Data / Particle Size Distribution / Zero-field-cooled / Hysteresis Loop / Magnetic Properties / Magnetic Susceptibility / Iron Oxide / Iron / Particle Size / Porous Material / Experimental Data / Particle Size Distribution / Zero-field-cooled / Hysteresis Loop
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
Engineering / Applied Physics / Nanowires / Copper / Physical sciences / Band Gap / Zinc / Time Resolved / Charge transfer / Band Gap / Zinc / Time Resolved / Charge transfer
Engineering / Applied Physics / Carbon Nanotube / Structural Control / Physical sciences / Radio Frequency / Kinetic Energy / Radio Frequency / Kinetic Energy