Approaching the Grain-Size Limit for Jitter Using FeRh/FePt in Heat-Assisted Magnetic Recording

Pin-Wei Huang; Victora R.H.

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Approaching the Grain-Size Limit for Jitter Using FeRh/FePt in Heat-Assisted Magnetic Recording

机译：在热辅助磁记录中使用FeRh / FePt达到抖动的粒度极限

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Composite FeRh/FePt for heat-assisted magnetic recording media is investigated with micromagnetic simulation. It is found to potentially lower recording temperature, while retaining high anisotropy field gradient. The transition width is predicted to depend on the media cooling rate. The thickness of the FeRh layer and the applied field can significantly affect the switching time of the FePt layer, and therefore alter recording performance. Applied field magnitudes and angles are identified that allow successful switching within 100 ps. It is shown that using up to 15 nm of FeRh with 6 nm of FePt, the jitter for 5.6 nm grains can be nearly equal to the grain-size limited value, for head velocities as high as 20 m/s.

机译：通过微磁模拟研究了用于热辅助磁记录介质的FeRh / FePt复合材料。发现可以降低记录温度，同时保持较高的各向异性场梯度。预测过渡宽度取决于介质冷却速率。 FeRh层的厚度和施加的场会严重影响FePt层的切换时间，因此会改变记录性能。确定了施加的磁场幅度和角度，可以在100 ps内成功切换。结果表明，使用高达15 nm的FeRh和6 nm的FePt，对于5.6纳米晶粒，其头部速度高达20 m / s时，其抖动几乎等于晶粒尺寸的极限值。

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来源
《Magnetics, IEEE Transactions on》 |2014年第11期|1-4|共4页
作者
Pin-Wei Huang; Victora R.H.;
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作者单位

Dept. of Electr. & Comput. Eng., Univ. of Minnesota, Minneapolis, MN, USA;

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原文格式 PDF
正文语种 eng
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关键词
grain size; iron compounds; jitter; magnetic anisotropy; magnetic cooling; magnetic recording; micromagnetics; FeRh-FePt; field magnitudes; grain-size limit; heat-assisted magnetic recording; high anisotropy field gradient; jitter; media cooling rate; micromagnetic simulation; recording temperature; size 5.6 nm; switching time; time 100 ps; transition width; Anisotropic magnetoresistance; Cooling; Heat-assisted magnetic recording; Jitter; Media; Switches; Composite media; FeRh; heat-assisted magnetic recording (HAMR); switching time;

机译：晶粒尺寸;铁化合物;抖动;磁各向异性;磁冷却;磁记录;微磁;FeRh-FePt;磁场强度;粒度极限;热辅助磁记录;高各向异性场梯度;抖动;介质冷却速率;微磁模拟;记录温度;大小5.6 nm;切换时间;时间100 ps;过渡宽度;各向异性磁阻;冷却;热辅助磁记录;抖动;介质;开关;复合介质;FeRh;热辅助磁记录（HAMR）;开关时间;

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专利

1. L1 $_{0}$-Ordered FePt-Based Perpendicular Magnetic Recording Media for Heat-Assisted Magnetic Recording [J] . Varaprasad B. S. D. C. S., Chen M., Takahashi Y. K., Magnetics, IEEE Transactions on . 2013,第2期

机译：L1 $ _ {0} $ 排序的基于FePt的垂直磁记录介质，用于热辅助磁记录
2. Micromagnetic modelling of new generation of FePt and FeRh nanostructures for heat assisted magnetic recording [J] . Z. Jia, R. D. K. Misra Materials Technology . 2011,第4期

机译：用于热辅助磁记录的新一代FePt和FeRh纳米结构的微磁建模
3. Influence of MgO underlayers on the structure and magnetic properties of FePt-C nanogranular films for heat-assisted magnetic recording media [J] . T. Shiroyama, B. S. D. Ch. S. Varaprasad, Y. K. Takahashi, AIP Advances . 2016,第10期

机译：MgO底层对热辅助磁记录介质FePt-C纳米颗粒膜结构和磁性的影响
4. FeRh/FePt ANTI-FERROMAGNET/FERROMAGNET EXCHANGE SPRING MEDIA FOR THERMALLY ASSISTED MAGNETIC RECORDING [C] . Jan-Ulrich Thiele, Stefan Maat, Eric Fullerton IEEE International Magnetics Conference . 2003

机译：FERH / FEST抗铁磁/铁磁交换弹簧介质用于热辅助磁记录
5. Heat-Assisted Magnetic Recording: Fundamental Limits to Inverse Electromagnetic Design [D] . Bhargava, Samarth. 2015

机译：热辅助磁记录：逆电磁设计的基本限制
6. Ultrathin amorphous carbon films synthesized by filtered cathodic vacuum arc used as protective overcoats of heat-assisted magnetic recording heads [O] . J. Matlak, K. Komvopoulos -1

机译：通过过滤阴极真空电弧合成的超薄无定形碳膜用作热辅助磁记录头的保护层
7. Near- Tc Ferromagnetic Resonance and Damping in FePt -Based Heat-Assisted Magnetic Recording Media [O] . Daniel Richardson, Sidney Katz, J. Wang, 2018

机译：近代的铁磁性谐振和阻尼在缩小的热辅助磁记录介质中

Approaching the Grain-Size Limit for Jitter Using FeRh/FePt in Heat-Assisted Magnetic Recording

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