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A kilobyte rewritable atomic memory

Nature nanotechnology | 19 Jul 2016

FE Kalff, MP Rebergen, E Fahrenfort, J Girovsky, R Toskovic, JL Lado, J Fernández-Rossier and AF Otte
Abstract
The advent of devices based on single dopants, such as the single-atom transistor, the single-spin magnetometer and the single-atom memory, has motivated the quest for strategies that permit the control of matter with atomic precision. Manipulation of individual atoms by low-temperature scanning tunnelling microscopy provides ways to store data in atoms, encoded either into their charge state, magnetization state or lattice position. A clear challenge now is the controlled integration of these individual functional atoms into extended, scalable atomic circuits. Here, we present a robust digital atomic-scale memory of up to 1 kilobyte (8,000 bits) using an array of individual surface vacancies in a chlorine-terminated Cu(100) surface. The memory can be read and rewritten automatically by means of atomic-scale markers and offers an areal density of 502 terabits per square inch, outperforming state-of-the-art hard disk drives by three orders of magnitude. Furthermore, the chlorine vacancies are found to be stable at temperatures up to 77 K, offering the potential for expanding large-scale atomic assembly towards ambient conditions.
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Concepts
Density, SI prefix, Magnetic field, Earth's magnetic field, Computer, Hard disk drive, Solid-state drive, Atom
MeSH headings
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