Abstract
The near-field principle combined with thin-film gas-lubricated slider bearing technology is thought to be one of the most promising breakthroughs to overcome the difficult optical diffraction limit (or wavelength shortening limit), which governs traditional optical recording performance. In light of this, we have demonstrated high linear density (150 nm pattern length) and high speed 10 MHz readout signals using the combination of a tapered circular aperture and a planar lens mounted on a quartz slider, flying above a metal patterned medium. In order to further improve both the spatial resolution and signal-to-noise ratio of this device, it is essential to minimize the spacing and laser power throughput of an aperture. Also investigated was the effectiveness of a non-circular aperture, which has approximately triangular configuration in combination with polarized light in simultaneously improving spatial resolution and increasing signal output. In this paper, we confirmed the predicted effectiveness on more practical condition of both high speed and compactness of head construction using a sub-micrometer size non-circular aperture, which was mounted on a 1.5-mm-long miniaturized optical head slider, flying above a ROM medium having sub-100-nm-long chromium patterns. The influence of the electric-field direction of the incident light and aperture to medium spacing on the readout signal are carefully evaluated by flying the aperture at spacing down to less than 50 nm.
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References
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Acknowledgments
This research was done based on grants-in-aid for scientific research, sponsored by Ministry of Education, Culture, Sports, Science and Technology, Japan.
The authors would like to thank Dr. Koji Uozumi and Noriyuki Saito, NHK Spring Ltd. for their providing pico-slider suspensions and technical advices. Authors would like to thank Mr. Tamotsu Kusumi, Nikon Corp. for their processing fine 70 nm line-and-space patterns on chromium layered media. The authors also would like to thank Dr. Hisashi Ito, NTT Advance Technology Corp. for their forming high quality carbon overcoat on patterned media. The authors also would like to thank Dr. Takanori Doi, Toda Corporation, for his helpful suggestions and careful treatment in forming lubricant layer on the patterned medium.
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Ohkubo, T., Park, M., Hirata, M. et al. Readout characteristics of a non-circular aperture mounted on an optical head slider flying above a medium having sub-100-nm-long patterns. Microsyst Technol 13, 1077–1084 (2007). https://doi.org/10.1007/s00542-006-0312-y
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DOI: https://doi.org/10.1007/s00542-006-0312-y