Anan Kruesubthaworn scite author profile

In this paper, the temperature and electromagnetic field distributions for bit-patterned media (BPM) with heat-assisted writing technology at areal density of 6.54–17.92 Tb/in2 are investigated by the finite integral technique method. We have found that the BPM can confine temperature better than continuous media. The temperature ratio of neighbor bits to heating bit of BPM at areal density of 6.54–7.69 Tb/in2 is lower than 65% and increases with increasing areal density. The electric field direction is toward the bit and the magnetic field circulates around the heating bit. In addition, the electric field of BPM is the same pattern as continuous media at areal density of 13.17 Tb/in2 or above.

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Thermal Image Refinement Approach for Scratches on a Magnetic Disk Evaluated at Various Angles

Todtong

Kaewrawang

Sivaratana³

et al. 2013

Instrumentation Science & Technology

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Anan Kruesubthaworn

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The temperature and electromagnetic field distributions of heat-assisted magnetic recording for bit-patterned media at ultrahigh areal density

Thermal Image Refinement Approach for Scratches on a Magnetic Disk Evaluated at Various Angles

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