Add to ORKGPACS 75.75.+a – Magnetic properties of nanostructures PACS 75.10.Hk – Classical spin models PACS 75.50.Tt – Fine-particle systems; nanocrystalline materials Abstract – In order to investigate the possibility of “beating the superparamagnetic limit with exchange bias ” (Skumryev V. et al., Nature, 423 (2003) 19) we perform atomistic modeling on Co/CoO magnetic nanoparticles varying the strength of the ferromagnet/antiferromagnet interfacial coupling. Our results show that exchange-biased systems exhibit an increased energy barrier along the bias direction, with a corresponding decrease of the barrier in the opposite direction. For systems with large values of the interfacial coupling, the ferromagnetic core is found to be unconditionally sta...
International audienceWe compare here exchange bias (EB) properties of chemically synthesized core-s...
AbstractWe compare here exchange bias (EB) properties of chemically synthesized core–shell nanoparti...
We perform atomistic modeling of Co/CoO nanoparticles with a diameter of a few nanometers and realis...
Although single magnetic domain nanoparticles are very promising for many applications, size reducti...
In order to explore an alternative strategy to design exchange-biased magnetic nanostructures, bimag...
Bimagnetic nanoparticles have been proposed for the design of new materials with controlled properti...
Under the auspices of this funding, we have developed a program to synthesize and characterize highl...
Although single magnetic domain nanoparticles are very promising for many applications, size reducti...
The exchange bias properties of 5 nm Co/CoO ferromagnetic/antiferromagnetic core/shell nanoparticles...
The exchange bias (EB) phenomenon has been reported in a variety of nanoparticle systems with core/s...
Tuning the core–shell morphology of bimagnetic nanoparticles and its associated exchange bias behavi...
Magnetic properties of ferromagnetic nanostructures were studied by atomistic simulations following ...
Coupling at the interface of core/shell magnetic nanoparticles is known to be responsible for exchan...
The exchange bias properties of Co/CoO coaxial core/shell nanowires were investigated with cooling a...
The influence of finite dimensions on the exchange bias effect in patterned polycrystalline Co/CoO f...
International audienceWe compare here exchange bias (EB) properties of chemically synthesized core-s...
AbstractWe compare here exchange bias (EB) properties of chemically synthesized core–shell nanoparti...
We perform atomistic modeling of Co/CoO nanoparticles with a diameter of a few nanometers and realis...
Although single magnetic domain nanoparticles are very promising for many applications, size reducti...
In order to explore an alternative strategy to design exchange-biased magnetic nanostructures, bimag...
Bimagnetic nanoparticles have been proposed for the design of new materials with controlled properti...
Under the auspices of this funding, we have developed a program to synthesize and characterize highl...
Although single magnetic domain nanoparticles are very promising for many applications, size reducti...
The exchange bias properties of 5 nm Co/CoO ferromagnetic/antiferromagnetic core/shell nanoparticles...
The exchange bias (EB) phenomenon has been reported in a variety of nanoparticle systems with core/s...
Tuning the core–shell morphology of bimagnetic nanoparticles and its associated exchange bias behavi...
Magnetic properties of ferromagnetic nanostructures were studied by atomistic simulations following ...
Coupling at the interface of core/shell magnetic nanoparticles is known to be responsible for exchan...
The exchange bias properties of Co/CoO coaxial core/shell nanowires were investigated with cooling a...
The influence of finite dimensions on the exchange bias effect in patterned polycrystalline Co/CoO f...
International audienceWe compare here exchange bias (EB) properties of chemically synthesized core-s...
AbstractWe compare here exchange bias (EB) properties of chemically synthesized core–shell nanoparti...
We perform atomistic modeling of Co/CoO nanoparticles with a diameter of a few nanometers and realis...