AIP Digital Archive
Among the proposed magnetically induced super resolution media, double-mask rear aperture detection (RAD) has the greatest potential for use in high-density land/groove recording.1 We proposed a trilayer double-mask RAD media that does not require a large initializing magnetic field.2 In this paper, we report the land/groove recording on the trilayer media for a 0.4 μm mark length and 0.7 μm track pitch. We found that crosstalk drastically changed depending on the direction of the readout magnetic field, and that the crosswrite is related to crosstalk. When applying the readout magnetic field in the erasing direction, the value of crosstalk was about −25 dB and a large crosswrite effect was observed. Conversely, the crosstalk was below −45 dB and no crosswrite effect was observed when applying the magnetic field in the writing direction. CNRs had almost the same value of 48 dB for both the above cases. To investigate the mask formation while applying the readout field in the writing direction, we precisely observed the wave form of the isolated marks. The carrier level rose twice with increasing readout field. However, the position of the leading edge mainly changed when increasing the field. We think that the low crosstalk is attributable to the enhancement of the front mask area. The trilayer media enables an areal density of 3 Gbit/in.2 © 1997 American Institute of Physics.
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