Add to ORKGWe describe the atomic structure and magnetism in Fe nanoparticles (∼2 nm) ebedded in a Cu1−xAlx alloy matrix. Nanocomposite films for these studies were prepared directly from gas phase using a flexible co-deposition technique under Ultra-High Vacuum (UHV) conditions. Fe nanoparticles and the alloy matrix were prepared using a gas aggregation source and MBE sources respectively. Extended x-ray absorption fine structure (EXAFS) experiments indicate that the embedded Fe nanoparticles retain a bcc structure for Al-contents greater than x = 0.13 but, for Al-contents lower than this value, Fe nanoparticles have both fcc and bcc structures. The magnetic moment per Fe atom initially increases with increasing Al-content due to the bcc structure be...
The paper reports the effect of the addition of small amount of Al on the microstructure and propert...
Nanocrystalline Fe100-xAlx powders (x= 25, 30, 34 and 40 at %) were prepared by the mechanical alloy...
In this paper we report the magnetic properties of nanosized intermetallic FeAl particles, prepared ...
This thesis consists of three main investigations. The first of these is a study of the magnetic pro...
Nominal granular iron oxide-aluminum thin films have been prepared by simultaneous deposition of iro...
The structure of 2 nm diameter (340 atoms) Fe nanoparticles embedded in a Cr matrix was determined ...
It has been appreciated for some time that the novel properties of particles in the size range 1–10 ...
It has been appreciated for some time that the novel properties of particles in the size range 1–10 ...
The structure of 2 nm diameter (340 atoms) Fe nanoparticles embedded in a Cr matrix was determined u...
Fe and Al nanocomposites have been prepared using the plasma-gas-condensation cluster deposition sys...
Nanocrystalline Fe100-xAlx powders (x= 25, 30, 34 and 40 at %) were prepared by the mechanical alloy...
The main purpose of this work was to produce a material with a saturation magnetisation greater than...
Nanocrystalline Fe100-xAlx powders (x= 25, 30, 34 and 40 at %) were prepared by the mechanical alloy...
Nanocrystalline Fe100-xAlx powders (x= 25, 30, 34 and 40 at %) were prepared by the mechanical alloy...
The paper reports the effect of the addition of small amount of Al on the microstructure and propert...
The paper reports the effect of the addition of small amount of Al on the microstructure and propert...
Nanocrystalline Fe100-xAlx powders (x= 25, 30, 34 and 40 at %) were prepared by the mechanical alloy...
In this paper we report the magnetic properties of nanosized intermetallic FeAl particles, prepared ...
This thesis consists of three main investigations. The first of these is a study of the magnetic pro...
Nominal granular iron oxide-aluminum thin films have been prepared by simultaneous deposition of iro...
The structure of 2 nm diameter (340 atoms) Fe nanoparticles embedded in a Cr matrix was determined ...
It has been appreciated for some time that the novel properties of particles in the size range 1–10 ...
It has been appreciated for some time that the novel properties of particles in the size range 1–10 ...
The structure of 2 nm diameter (340 atoms) Fe nanoparticles embedded in a Cr matrix was determined u...
Fe and Al nanocomposites have been prepared using the plasma-gas-condensation cluster deposition sys...
Nanocrystalline Fe100-xAlx powders (x= 25, 30, 34 and 40 at %) were prepared by the mechanical alloy...
The main purpose of this work was to produce a material with a saturation magnetisation greater than...
Nanocrystalline Fe100-xAlx powders (x= 25, 30, 34 and 40 at %) were prepared by the mechanical alloy...
Nanocrystalline Fe100-xAlx powders (x= 25, 30, 34 and 40 at %) were prepared by the mechanical alloy...
The paper reports the effect of the addition of small amount of Al on the microstructure and propert...
The paper reports the effect of the addition of small amount of Al on the microstructure and propert...
Nanocrystalline Fe100-xAlx powders (x= 25, 30, 34 and 40 at %) were prepared by the mechanical alloy...
In this paper we report the magnetic properties of nanosized intermetallic FeAl particles, prepared ...