Yipeng Jiao scite author profile

Yipeng Jiao

5Publications

27Citation Statements Received

1Citation Statement Given

How they've been cited

110

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Affiliations

University of Minnesota, University of Minnesota System

Publications

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Composite media for high density heat assisted magnetic recording

Liu

Jiao

Victora

2016

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A heat assisted magnetic recording composite media with a superparamagnetic writing layer is proposed. The recording process is initiated in the write layer that is magnetically softer than the long term storage layer. Upon cooling, the composite structure copies the information from the writing layer to the lower Curie temperature (Tc) storage layer, e.g., doped FePt. The advantages include insensitivity to Tc variance in the storage layer, and thus the opportunity to significantly lower the FePt Tc without the resulting Tc distribution adversely affecting the performance. The composite structure has a small jitter within 0.1 nm of the grain size limit owing to the sharp transition width of the optimized superparamagnetic writing layer. The user density of the composite structure can reach 4.7 Tb/in.2 for a Gaussian heat spot with a full-width-at-half-maximum of 30 nm, a 12 nm reader width, and an optimized bit length of 6 nm.

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Dependence of Predicted Areal Density on Common Optimization Strategies for Heat-Assisted Magnetic Recording

Jiao

Victora

2017

IEEE Magn. Lett.

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A Study of SNR and BER in Heat-Assisted Magnetic Recording

2015

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Renormalized anisotropic exchange for representing heat assisted magnetic recording media

Jiao

Liu

Victora

2015

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Anisotropic exchange has been incorporated in a description of magnetic recording media near the Curie temperature, as would be found during heat assisted magnetic recording. The new parameters were found using a cost function that minimized the difference between atomistic properties and those of renormalized spin blocks. Interestingly, the anisotropic exchange description at 1.5 nm discretization yields very similar switching and magnetization behavior to that found at 1.2 nm (and below) discretization for the previous isotropic exchange. This suggests that the increased accuracy of anisotropic exchange may also reduce the computational cost during simulation.

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Understanding Transition and Remanence Noise in HAMR

2018

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Yipeng Jiao

Composite media for high density heat assisted magnetic recording

Dependence of Predicted Areal Density on Common Optimization Strategies for Heat-Assisted Magnetic Recording

A Study of SNR and BER in Heat-Assisted Magnetic Recording

Renormalized anisotropic exchange for representing heat assisted magnetic recording media

Understanding Transition and Remanence Noise in HAMR

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