R&D: Rotated Read Head Design for High-Density Heat-Assisted Shingled Magnetic Recording
Found that optimal rotation angle generally follows transition shape, with array of 2 rotated heads, track pitch of 15nm, and minimum bit length of 6.0nm, user areal density reaching 6.2Tb/in2, more than 30% above previous projections for recording on granular media.
This is a Press Release edited by StorageNewsletter.com on May 4, 2021 at 2:31 pmApplied Physics Letters has published an article written by Wei-Heng Hsu, and R. H. Victora, Center for Micromagnetics and Information Technologies, University of Minnesota, Minneapolis, Minnesota 55455, USA, and Department of Electrical and Computer Engineering, University of Minnesota, Minneapolis, Minnesota 55455, USA.
Abstract: “In heat-assisted shingled magnetic recording, recorded tracks are erased on one side. The transitions are no longer symmetric relative to the track center, especially when the transitions are highly curved as a result of the temperature profile generated by the near-field transducer. To optimally utilize these asymmetrically curved transitions, the read head is rotated to match the curvature. For a single rotated head, a more than 10% improvement in user density is achieved compared to that of a single non-rotated head. We found that the optimal rotation angle generally follows the transition shape. With an array of two rotated heads, a track pitch of 15 nm, and a minimum bit length of 6.0 nm, the user areal density reaches 6.2 Tb/in2, more than 30% above previous projections for recording on granular media.“
This work was supported by the Advance Storage Research Consortium (ASRC). The authors would like to thank Dr. Y. Wang at Shanghai Jiao Tong University for the help in the BER calculations. The authors would also like to thank Dr. N. Natekar and Dr. Z. Liu for useful discussions.
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