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An experimental study of head-disk clearance sensitivity and instabilities in magnetic recoding heads with adaptive flying height

机译：具有自适应飞行高度的磁记录头磁头磁盘间隙灵敏度和不稳定性的实验研究

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We did an experimental study to examine the head-to-media spacing (HMS) sensitivity of electrical performance of perpendicular recording system with an adaptive flying height (AFH) heater. It also focused on the effect of the temperature rise due to the AFH heater on the instability and noise of tunneling magnetoresistance (TMR) sensors. It is firstly reported that the high temperature rise from the AFH heater induces head instabilities. The signatures on the transfer curve indicate that the flipping of a synthetic antiferromagnet (SAF) edge magnetization causes these instabilities. The thermal stress potentially reduces the exchange-bias field and thermal stability of SAF layers and an antiferromagnetic (AFM) layer allowing flipping the SAF edge magnetization.

机译：我们进行了一项实验研究，以研究带有自适应飞行高度（AFH）加热器的垂直记录系统的电性能的磁头到介质间距（HMS）的灵敏度。它还关注了由于AFH加热器引起的温度升高对隧道磁阻（TMR）传感器的不稳定性和噪声的影响。首次报道，AFH加热器的高温升高引起磁头不稳定。传输曲线上的标记表明，合成反铁磁体（SAF）边缘磁化强度的翻转会导致这些不稳定性。热应力可能会降低SAF层和反铁磁（AFM）层的交换偏置场和热稳定性，从而使SAF边缘磁化强度发生翻转。

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《Magnetic Recording Conference, 2009. APMRC '09》|2009年|1-2|共2页
会议地点 Grand Hyatt(SG);Grand Hyatt(SG)
作者
Tongsomporn D.; Vongsarath K.; Sivaratana R.; Afzulpurkar N.; Bargmann B.; Siritaratiwat A.;
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作者单位

Seagate Technol. (Thailand), Nakhon Ratchasima;

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antiferromagnetism; exchange interactions (electron); magnetic disc storage; magnetic heads; magnetic sensors; magnetisation; perpendicular magnetic recording; thermal stability; thermal stresses; tunnelling magnetoresistance; TMR; adaptive flying height heater; exchange-bias field; head-disk clearance sensitivity; head-to-media spacing; magnetic recording heads; perpendicular recording; synthetic antiferromagnet edge magnetization; thermal stress; tunneling magnetoresistance sensors; Adaptive flying height; head de;

机译：反铁磁;交换相互作用（电子）;磁盘存储;磁头;磁传感器;磁化;垂直磁记录;热稳定性;热应力;隧道磁阻; TMR;自适应飞行高度加热器;交换磁场;磁头-磁盘间隙灵敏度磁头到介质的间距磁记录头垂直记录合成反铁磁体边缘磁化热应力隧道磁阻传感器自适应飞行高度磁头磁头;

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专利

1. An Experimental Study Of Head Instabilities In Tmr Sensors For Magnetic Recording Heads With Adaptive Flying Height [J] . Damrongsak TONGSOMPORN, Nitin AFZULPURKAR, Brent BARGMANN, IEICE Transactions on Electronics . 2008,第12期

机译：具有自适应飞行高度的TMR传感器磁头不稳定性的实验研究
2. Experimental Study of Head-Disk Interface Instability on Light Contact Recording Using Dynamic Flying Height Control [J] . Tani H., Yamaguchi T., Tagawa N. Magnetics, IEEE Transactions on . 2011,第1期

机译：动态飞行高度控制的光接触记录头-磁盘接口不稳定性的实验研究
3. Interface technology of ultra-low flying height and highly stable head-disk interface for perpendicular magnetic recording [J] . Hui Li, Jin Liu, Bo Liu, Tribology International . 2007,第2期

机译：垂直磁记录的超低飞行高度和高度稳定的磁头-磁盘接口技术
4. An Experimental Study of Head-Disk Clearance Sensitivity and Instabilities in Magnetic Recoding Heads with Adaptive Flying Height [C] . D. Tongsomporn, K. Vongsarath, R. Sivaratana, Asia-Pacific Magnetic Recording Conference . 2009

机译：具有自适应飞行高度磁读取头磁头磁盘间隙灵敏度和稳定性的实验研究
5. Experimental studies of the head-disk interface from a tribological and controls point of view for flying heights below 2 nm. [D] . Matthes, Liane Manuela. 2016

机译：从摩擦学和控制学角度对磁头-磁盘界面进行的实验研究，表明飞行高度低于2 nm。
6. Human MLH1 status can potentially predict cisplatin sensitivity but not microsatellite instability in head and neck squamous cell carcinoma cells [O] . MAKOTO ADACHI, KEI IJICHI, YASUHISA HASEGAWA, -1

机译：人类MLH1状态可以潜在地预测顺铂敏感性但不能预测头颈部鳞状细胞癌细胞中的微卫星不稳定性
7. Dynamic contact with friction of an ultra-low flying head-disk interface with thermal protrusion [O] . Vakis A.I., Lee S.-C., Polycarpou A.A. 2009

机译：动态接触具有热突起的超低飞头磁盘界面的摩擦

An experimental study of head-disk clearance sensitivity and instabilities in magnetic recoding heads with adaptive flying height

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