Atomic Scale Memory at a Silicon Surface

A. Kirakosian; D.Y. Petrovykh; F.J. Himpsel; J.-L. Lin; J.L. McChesney; J.N. Crain; R. Bennewitz

arxiv: cond-mat/0204251 · v2 · submitted 2002-04-11 · ❄️ cond-mat

Atomic Scale Memory at a Silicon Surface

R. Bennewitz , J.N. Crain , A. Kirakosian , J.-L. Lin , J.L. McChesney , D.Y. Petrovykh , F.J. Himpsel This is my paper

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keywords memorysiliconatomatomicatomsscalestorageabsence

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The limits of pushing storage density to the atomic scale are explored with a memory that stores a bit by the presence or absence of one silicon atom. These atoms are positioned at lattice sites along self-assembled tracks with a pitch of 5 atom rows. The writing process involves removal of Si atoms with the tip of a scanning tunneling microscope. The memory can be reformatted by controlled deposition of silicon. The constraints on speed and reliability are compared with data storage in magnetic hard disks and DNA.

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Atomic Scale Memory at a Silicon Surface

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