Exchange spring media

Exchange spring media (also exchange coupled composite media or ECC[1]) is a magnetic storage technology for hard disk drives that allows to increase the storage density in magnetic recording. The idea, proposed in 2004 by Suess et al.,[2] is that the recording media consists of exchange coupled soft and hard magnetic layers. Exchange spring media allows a good writeability due to the write-assist nature of the soft layer. Hence, hard magnetic layers such as FePt, CoCrPt-alloys or hard magnetic multilayer structures can be written with conventional write heads. Due to the high anisotropy these grains are thermally stable even for small grain sizes. Small grain sizes are required for high density recording. Interestingly, the introduction of the soft layer does not decrease the thermal stability of the entire structure if the hard layer is sufficient thick. The required thickness of the hard layer for best thermal stability is the exchange length of the hard layer material. The first experimental realization of exchange spring media was done on Co-PdSiO multilayers as the hard layer which was coupled via a PdSi interlayer to a FeSiO soft layer.[3]

Besides the improved writeability, another advantage of exchange spring media is, that the switching field distribution of the grains, which has to be as small as possible to allow for high storage densities, can be decreased. This effect was predicted theoretically and experimentally verified on Co/Pd multilayers as hard layer coupled to Co/Ni multilayers as soft layer.[4] In commercial hard disks exchange spring media is used since about 2007.[5][6]

See also

References

  1. "Composite media for perpendicular magnetic recording, Victora et al, IEEE Trans. Mag. Mat., 2005".
  2. D. Suess, T. Schrefl, R. Dittrich, M. Kirschner, F. Dorfbauer, G. Hrkac, J. Fidler (18 December 2004). "Exchange spring recording media for areal densities up to 10Tbit/in2". Journal of Magnetism and Magnetic Materials.
  3. "Exchange coupled composite media for perpendicular magnetic recording, Wang et al, IEEE Trans. Mag. Mat., 2005".
  4. "Role of reversal incoherency in reducing switching field and switching field distribution of exchange coupled composite bit patterned media, Hauet et al, Appl. Phys. Lett., 2009" (PDF).
  5. "Switching volume change and recording performance correlation for weakly coupled exchange spring media, Ikeda et al, J. Appl. Phys., 2009".
  6. "Developments in Data Storage".
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