The atomic fabrication of a silicon based quantum computer

The atomic fabrication of a silicon based quantum computer

Presents recent results on two different approaches to realize a solid-state quantum computer based in silicon, using phosphorus atoms as qubits. In the first approach the device is built from the 'bottomup' using a combination of atomic lithography with a scanning tunneling microscope and...

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Hauptverfasser: Simmons, M.Y., Schofield, S.R., O'Brien, J.L., Curson, N.J., Clark, R.G., Buehler, T.M., McKinnon, R.P., Brenner, R., Reilly, D.J., Dzurak, A.S., Hamilton, A.R.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Atomic beams
Atomic layer deposition
Epitaxial growth
Fabrication
Lithography
Microscopy
Quantum computing
Silicon
Solid state circuits
Tunneling
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Beschreibung
Zusammenfassung:Presents recent results on two different approaches to realize a solid-state quantum computer based in silicon, using phosphorus atoms as qubits. In the first approach the device is built from the 'bottomup' using a combination of atomic lithography with a scanning tunneling microscope and high quality silicon epitaxial growth using molecular beam epitaxy. In the second approach ion implantation is used to implant the phosphorus atoms from the 'top-down'. In both cases surface control electrodes are fabricated by conventional electron beam lithography. Techniques for qubit read-out utilising coincidence measurements on twin single electron transistors are also presented.
DOI:10.1109/NANO.2001.966469