Head-Disk Spacing Measurement Using Michelson Laser Interferometry as Observed Through Glass Disk
Author:
Mitsuya Yasunaga1, Kawamoto Yasuhiro2, Zhang Hedong3, Oka Hiroyuki4
Affiliation:
1. Nagoya University, Department of Micro System Engineering, Furo-cho Chikusa-ku, Nagoya 464-8603, Japan 2. Toshiba Digital Media Network Co. Ltd., Suehiro-cho 2-9, Ohme, Tokyo 198-8710, Japan 3. Nagoya University, Department of Micro System Engineering, Furo-cho Chikusa-ku Nagoya 464-8603, Japan 4. Sharp Corp., Audio-Visual Systems Group, Hachihon-matsu-iida 2-13-2, Higashi-hiroshima 739-0192, Japan
Abstract
A spacing measurement using Michelson laser interferometry was developed for measuring the head-disk spacing in a hard disk drive. This method utilizes the phase comparison of two kinds of interference fringe patterns formed respectively over the inner surface of a glass disk and the air bearing surface of a slider through the glass disk. To increase resolution and reproducibility, four principal techniques were newly introduced: an optical system on which a high-definition CCD (charge-coupled device) camera was mounted, external identification of the fringe interval by driving the reference mirror, a wobbling technique to freeze ridgelines at a prescribed position when capturing the fringe image, and a powerful method for extracting ridgelines from the fringe pattern. In this method, the phase shift generated by light reflection on the slider surface incurring multiple beam interference effects must be compensated. For this purpose, first the phase shift was quantified by simulating the multiple beam interferences over a stratified medium inclusive of the lubricating air film, the DLC (diamond-like-carbon) protective layer, the silicon underlayer and the substrate. Then, the shift was subtracted from the optical spacing to obtain the mechanical spacing. Finally, the repeatedly measured mechanical spacings were compared with the theoretically calculated spacings, showing a good accordance between them.
Publisher
ASME International
Subject
Surfaces, Coatings and Films,Surfaces and Interfaces,Mechanical Engineering,Mechanics of Materials
Reference12 articles.
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