Add to ORKGThe formation of quantum computer test structures in silicon by ion implantation enables the characterization of spin readout mechanisms with ensembles of dopant atoms and the development of single atom devices. We briefly review recent results in the characterization of spin dependent transport and single ion doping and then discuss the diffusion and segregation behaviour of phosphorus, antimony and bismuth ions from low fluence, low energy implantations as characterized through depth profiling by secondary ion mass spectrometry (SIMS). Both phosphorus and bismuth are found to segregate to the SiO2/Si interface during activation anneals, while antimony diffusion is found to be minimal. An effect of the ion charge state on the range of anti...
© 2014 Dr. Jessica van DonkelaarConventional computers are approaching fabrication limits where stat...
© 2020 Danielle HolmesQuantum computers are set to revolutionise technology by harnessing the immens...
A differential Hall effect technique has been developed to obtain doping profiles at a depth resolut...
This thesis investigates the defects, charge states and spin properties of phosphorus doped silicon,...
Spins of single donor atoms are attractive candidates for large scale quantum information processing...
© 2020 Aochen DuanQuantum devices that leverage the manufacturing techniques of silicon-based classi...
We have investigated the use of conventional ion implantation to fabricate enriched 28 Si layers for...
We implanted ultra low doses (0.2 to 2 x 10{sup 11} cm{sup -2}) of Sb ions into isotopically enriche...
This thesis reports a study of a viable way to produce ultra-shallow n-p junctions for the next gene...
Silicon-based quantum information processing devices show great promise, being one of the most advan...
We describe critical processing issues in our development of single-atom devices for solid-state qua...
Rutherford back-scattering (RBS) and Medium Energy Ion Scattering (MEIS) have been used to determine...
We present the results from a focused ion beam instrument designed to implant single ions with a vie...
The presence of single atoms, e.g. dopant atoms, in sub-100 nm scale electronic devices can affect t...
The diffusivity of antimony into silicon and its dependence on the Fermi-level position and on the s...
© 2014 Dr. Jessica van DonkelaarConventional computers are approaching fabrication limits where stat...
© 2020 Danielle HolmesQuantum computers are set to revolutionise technology by harnessing the immens...
A differential Hall effect technique has been developed to obtain doping profiles at a depth resolut...
This thesis investigates the defects, charge states and spin properties of phosphorus doped silicon,...
Spins of single donor atoms are attractive candidates for large scale quantum information processing...
© 2020 Aochen DuanQuantum devices that leverage the manufacturing techniques of silicon-based classi...
We have investigated the use of conventional ion implantation to fabricate enriched 28 Si layers for...
We implanted ultra low doses (0.2 to 2 x 10{sup 11} cm{sup -2}) of Sb ions into isotopically enriche...
This thesis reports a study of a viable way to produce ultra-shallow n-p junctions for the next gene...
Silicon-based quantum information processing devices show great promise, being one of the most advan...
We describe critical processing issues in our development of single-atom devices for solid-state qua...
Rutherford back-scattering (RBS) and Medium Energy Ion Scattering (MEIS) have been used to determine...
We present the results from a focused ion beam instrument designed to implant single ions with a vie...
The presence of single atoms, e.g. dopant atoms, in sub-100 nm scale electronic devices can affect t...
The diffusivity of antimony into silicon and its dependence on the Fermi-level position and on the s...
© 2014 Dr. Jessica van DonkelaarConventional computers are approaching fabrication limits where stat...
© 2020 Danielle HolmesQuantum computers are set to revolutionise technology by harnessing the immens...
A differential Hall effect technique has been developed to obtain doping profiles at a depth resolut...