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Article
A Single-Atom Transistor
Nature Nanotechnology
  • Martin Fuechsle, University of New South Wales
  • Jill A. Miwa, University of New South Wales
  • Suddhasatta Mahapatra, University of New South Wales
  • Hoon Ryu, Korea Institute of Science and Technology Information
  • Sunhee Lee, NCN, Purdue University
  • Oliver Warschkow, University of Sydney
  • Lloyd C.L. Hollenberg, University of Melbourne
  • Gerhard Klimeck, NCN, Purdue University
  • Michelle Y. Simmons, University of New South Wales
Abstract

The ability to control matter at the atomic scale and build devices with atomic precision is central to nanotechnology. The scanning tunneling microscope can manipulate individual atoms and molecules on surfaces, but the manipulation of silicon to make atomic-scale logic circuits has been hampered by the covalent nature of its bonds. Resist-based strategies have allowed the formation of atomic-scale structures on silicon surfaces, but the fabrication of working devices—such as transistors with extremely short gate lengths, spin-based quantum computers and solitary dopant optoelectronic devices—requires the ability to position individual atoms in a silicon crystal with atomic precision. Here, we use a combination of scanning tunnelling microscopy and hydrogen-resist lithography to demonstrate a single-atom transistor in which an individual phosphorus dopant atom has been deterministically placed within an epitaxial silicon device architecture with a spatial accuracy of one lattice site. The transistor operates at liquid helium temperatures, and millikelvin electron transport measurements confirm the presence of discrete quantum levels in the energy spectrum of the phosphorus atom. We find a charging energy that is close to the bulk value, previously only observed by optical spectroscopy.

Date of this Version
2-19-2012
DOI
10.1038/nnano.2012.21
Citation
A Single-Atom Transistor. (2012). Fuechsle et al. Nature Nanotechnology. DOI: 10.1038/NNANO.2012.21
Citation Information
Martin Fuechsle, Jill A. Miwa, Suddhasatta Mahapatra, Hoon Ryu, et al.. "A Single-Atom Transistor" Nature Nanotechnology (2012)
Available at: http://works.bepress.com/gerhard_klimeck/201/