对热三维系统中激光与润滑剂相互作用的原位亚量子表征。

Qilong Cheng, Sukumar Rajauria, Erhard Schreck, Robert Smith, Qing Dai, David B. Bogy
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引用次数: 0

摘要

激光与润滑剂之间的相互作用一直是热辅助磁记录这种热三维系统中的一个关键可靠性问题,而热辅助磁记录是下一代硬盘驱动器解决方案之一,可提高数据存储量。激光照射下的润滑剂反应以及随后的润滑剂恢复对系统的可靠性和使用寿命至关重要,但迄今为止还无法对其进行及时的局部诊断。在此,我们提出了一种热方案来现场表征激光与润滑剂的机械相互作用。纳米厚的润滑剂对系统中的近场热传输具有热障效应,据此可以确定润滑剂的厚度。作为示范,本文首次报告了激光诱导的润滑剂耗尽和随后回流动态的定量原位测量。所提出的方案具有亚埃级分辨率(约 0.2 Å)和数秒内的快速响应时间,使得在实际硬盘驱动器产品中进行原位实时润滑剂诊断成为可能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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In-situ sub-angstrom characterization of laser-lubricant interaction in a thermo-tribological system
Laser-lubricant interaction has been a critical reliability issue in a thermo-tribological system named heat-assisted magnetic recording, one of the next generation hard disk drive solutions to increasing data storage. The lubricant response under laser irradiation and the subsequent lubricant recovery are crucial to the system’s reliability and longevity, however, they cannot be diagnosed locally and timely so far. Here, we propose a thermal scheme to in-situ characterize the mechanical laser-lubricant interaction. The nanometer-thick lubricant has a thermal barrier effect on the near-field thermal transport in the system, according to which the lubricant thickness can be determined. As demonstrations, this paper reports the first quantitative in-situ measurements of the laser-induced lubricant depletion and the subsequent reflow dynamics. The proposed scheme shows a sub-angstrom resolution (~0.2 Å) and a fast response time within seconds, rendering in-situ real-time lubricant diagnosis feasible in the practical hard disk drive products. Heat-Assisted Magnetic Recording hard disk drives offer a solution to increasing data storage. Cheng and colleagues demonstrate a near-field thermal transport-based scheme to in-situ measure the lubricant thickness during the lubricant depletion and reflow dynamics, a process crucial to the reliability and longevity of the system.
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