Title :
Thermal effects and recording performance at high recording densities
Author :
Alex, Michael ; Wachenschwanz, David
Author_Institution :
Komag Inc., San Jose, CA, USA
fDate :
9/1/1999 12:00:00 AM
Abstract :
Both dynamic coercivity and thermal decay were quantified by non-destructive spinstand measurements. Media composition was found to significantly affect the stability factor for films having comparable static magnetic properties. Signal decay correlated well with the stability factor as calculated from dynamic coercivity measurements. Monitoring the signal from a harmonic-eliminating pattern is seen to be a robust method for measuring decay. Pattern-dependent amplitude decay leads to enhanced non-linear distortion as thermal decay occurs in complex data patterns recorded at high densities
Keywords :
coercive force; magnetic recording; magnetocaloric effects; thermal stability; dynamic coercivity; dynamic coercivity measurements; enhanced nonlinear distortion; films; harmonic-eliminating pattern; high recording densities; media composition; nondestructive spin-stand measurements; pattern-dependent amplitude decay; recording performance; stability factor; static magnetic properties; thermal decay; thermal effects; Coercive force; Demagnetization; Disk recording; Distortion measurement; High definition video; Magnetic properties; Magnetization; Thermal factors; Thermal stability; Writing;
Journal_Title :
Magnetics, IEEE Transactions on
