Title :
Thermal longevity of nano-multilayer magnetic media
Author :
Della Torre, E. ; Bennett, L.H.
Author_Institution :
George Washington Univ., Ashburn, VA, USA
Abstract :
A common concern about the use of particles a few nanometers in size is their stability. This paper addresses a technique for estimating the longevity on the basis of measurements that can be made in a reasonable time. Using the recently developed Preisach-Arrhenius model, the decay rate can be quantified using the chemical potential. Measurements in Co/Pt multilayer media have shown that at room temperature the fluctuating field is 2.61 mT. Since at room temperature, the entire decay can be seen when a field near the coercivity is applied, the longevity can be estimated at other holding fields by a linear extrapolation.
Keywords :
chemical potential; cobalt; coercive force; extrapolation; ferromagnetic materials; magnetic multilayers; magnetic particles; magnetic recording; nanoparticles; platinum; 2.61 mT; 20 C; Co-Pt; Co/Pt multilayer media; Preisach-Arrhenius model; chemical potential; coercivity; decay rate; fluctuating field; linear extrapolation; nano-multilayer magnetic media; nanometer size; particles; room temperature; thermal longevity; Atmospheric modeling; Chemicals; Life estimation; Magnetic field measurement; Magnetic materials; Magnetic multilayers; Magnetization; Switches; Temperature; Time measurement;
Conference_Titel :
Nanotechnology, 2002. IEEE-NANO 2002. Proceedings of the 2002 2nd IEEE Conference on
Print_ISBN :
0-7803-7538-6
DOI :
10.1109/NANO.2002.1032127
