Highly parallel data storage system based on scanning probe arrays

Highly parallel data storage system based on scanning probe arrays

This letter discusses an alternative storage approach to conventional magnetic data storage. The approach uses a 32×32 array of scanning probe microscopes working in parallel to read and write data as small indentations in a polymer storage medium. The results have densities of 100–200 Gbit/in.2. At...

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Veröffentlicht in:Applied physics letters 2000-11, Vol.77 (20), p.3299-3301
Hauptverfasser: Lutwyche, M. I., Despont, M., Drechsler, U., Dürig, U., Häberle, W., Rothuizen, H., Stutz, R., Widmer, R., Binnig, G. K., Vettiger, P.
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container_end_page 3301
container_issue 20
container_start_page 3299
container_title Applied physics letters
container_volume 77
creator Lutwyche, M. I.
Despont, M.
Drechsler, U.
Dürig, U.
Häberle, W.
Rothuizen, H.
Stutz, R.
Widmer, R.
Binnig, G. K.
Vettiger, P.
description This letter discusses an alternative storage approach to conventional magnetic data storage. The approach uses a 32×32 array of scanning probe microscopes working in parallel to read and write data as small indentations in a polymer storage medium. The results have densities of 100–200 Gbit/in.2. At such densities, it is shown that well over half the array works, and at lower densities more than 80% of levers are working.
doi_str_mv 10.1063/1.1326486
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title Highly parallel data storage system based on scanning probe arrays
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