Add to ORKGSeveral solid state quantum computer schemes are based on the manipulation of electron and nuclear spins of single donor atoms in a solid matrix. The fabrication of qubit arrays requires the placement of individual atoms with nanometer precision and high efficiency. In this article we describe first results from low dose, low energy implantations and our development of a low energy (<10 keV), single ion implantation scheme for 31Pq+ ions. When 31Pq+ ions impinge on a wafer surface, their potential energy (9.3 keV for P15+) is released, and about 20 secondary electrons are emitted. The emission of multiple secondary electrons allows detection of each ion impact with 100% efficiency. The beam spot on target is controlled by beam focusing a...
We describe critical processing issues in our development of single-atom devices for solid-state qua...
Deterministic doping is crucial for overcoming dopant number variability in present nano-scale devic...
With the number of qubits increasing with each new quantum processor design, it is to be expected th...
Several solid state quantum computer schemes are based on the manipulation of electron and nuclear s...
Spins of single donor atoms are attractive candidates for large scale quantum information processing...
Deterministic implantation of single bismuth ions in silicon is demonstrated using a focused ion bea...
Interest in single-ion implantation is driven in part by research into development of solid-state de...
The ability to inject dopant atoms with high spatial resolution, flexibility in dopant species, and ...
© 2014 Dr. Jessica van DonkelaarConventional computers are approaching fabrication limits where stat...
We present the results from a focused ion beam instrument designed to implant single ions with a vie...
We report a nanofabrication, control and measurement scheme for charge-based silicon quantum computi...
The presence of single atoms, e.g. dopant atoms, in sub-100 nm scale electronic devices can affect t...
International audienceDopant atoms are ubiquitous in semiconductor technologies, providing the tailo...
We discuss progress towards the fabrication and demonstration of a prototype silicon-based quantum c...
We have investigated the use of conventional ion implantation to fabricate enriched 28 Si layers for...
We describe critical processing issues in our development of single-atom devices for solid-state qua...
Deterministic doping is crucial for overcoming dopant number variability in present nano-scale devic...
With the number of qubits increasing with each new quantum processor design, it is to be expected th...
Several solid state quantum computer schemes are based on the manipulation of electron and nuclear s...
Spins of single donor atoms are attractive candidates for large scale quantum information processing...
Deterministic implantation of single bismuth ions in silicon is demonstrated using a focused ion bea...
Interest in single-ion implantation is driven in part by research into development of solid-state de...
The ability to inject dopant atoms with high spatial resolution, flexibility in dopant species, and ...
© 2014 Dr. Jessica van DonkelaarConventional computers are approaching fabrication limits where stat...
We present the results from a focused ion beam instrument designed to implant single ions with a vie...
We report a nanofabrication, control and measurement scheme for charge-based silicon quantum computi...
The presence of single atoms, e.g. dopant atoms, in sub-100 nm scale electronic devices can affect t...
International audienceDopant atoms are ubiquitous in semiconductor technologies, providing the tailo...
We discuss progress towards the fabrication and demonstration of a prototype silicon-based quantum c...
We have investigated the use of conventional ion implantation to fabricate enriched 28 Si layers for...
We describe critical processing issues in our development of single-atom devices for solid-state qua...
Deterministic doping is crucial for overcoming dopant number variability in present nano-scale devic...
With the number of qubits increasing with each new quantum processor design, it is to be expected th...