Copyright © (1999) American Institute of Physics. This article may be downloaded for personal use only. Any other use requires prior permission of the author and the American Institute of Physics
We report a simple atomic force microscopy-based concept for a new hard-disk-like data storage technology. Thermomechanical writing by heating a Si cantilever in contact with a spinning polycarbonate disk has already been reported. Here the medium has been replaced with a thin polymer layer on a Si substrate, resulting in significant improvements in storage density. With this new medium, we achieve bit sizes of 10 to 50 nm, leading to data densities of 500 Gbit/in2. We also demonstrate a novel high-speed and high-resolution thermal readback method, which uses the same
Si cantilevers that are used in the writing process, and the capability to erase and rewrite data features repeatedly.
By: G. Binnig, M. Despont, U. Drechsler, W. Haeberle, M. Lutwyche, P. Vettiger, H. J. Mamin, B. W. Chui, and T. W. Kenny
Published in: Applied Physics Letters, volume 74, (no 9), pages 1329-31 in 1999
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