The magnetic properties and recording performance of highly oriented (HOR)
longitudinal media are systematically studied via micromagnetic simulation.
It was found that highly oriented longitudinal media could be achieved by
controlling the anisotropy axes distribution. The effect of anisotropy cons
tant, saturated magnetization and exchange coupling constants on the hyster
esis loops are presented. It was further found that highly oriented media s
how an ultralow transition noise. Another interesting observation made was
that increasing M, for the HOR media decreases the coercivity, which sugges
ts practical usage of this media with current head field. A 500 Gbit/in(2)
recording media is simulated to support the application of the highly orien
ted longitudinal media for ultra high density recording. (C) 2001 Elsevier
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