Thermal fluctuations of magnetic nanoparticles: fifty years after Brown
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William T. Coffey and Yuri P. Kalmykov, Thermal fluctuations of magnetic nanoparticles: fifty years after Brown, Journal of Applied Physics, 112, 12, 2012
Abstract
The reversal time, superparamagnetic relaxation time, of the magnetization of fine single domain
ferromagnetic nanoparticles owing to thermal fluctuations plays a fundamental role in information
storage, paleomagnetism, biotechnology, etc. Here a comprehensive tutorial-style review of the
achievements of fifty years of development and generalizations of the seminal work of Brown
[Phys. Rev.
130
, 1677 (1963)] on thermal fluctuations of magnetic nanoparticles is presented.
Analytical as well as numerical approaches to the estimation of the damping and temperature
dependence of the reversal time based on Brown?s Fokker-Planck equation for the evolution of the
magnetic moment orientations on the surface of the unit sphere are critically discussed while the
most promising directions for future research are emphasized
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Sponsor: European Union (EU)
Grant Number: 295196
Author's Homepage: http://people.tcd.ie/wcoffey
Type of material: Journal Article

