Add to ORKGSolid-state quantum computer architectures with qubits encoded using single atoms are now feasible given recent advances in atomic doping of semiconductors. Here we present a charge qubit consisting of two dopant atoms in a semiconductor crystal, one of which is singly ionised. Surface electrodes control the qubit and a radio-frequency single electron transistor provides fast readout. The calculated single gate times, of order 50ps or less, are much shorter than the expected decoherence time. We propose universal one- and two-qubit gate operations for this system and discuss prospects for fabrication and scale up
The proposal of quantum information processing has shown us the first serious possibility, though st...
The experimental study of semiconductors has advanced to the point where individual atoms can be add...
Single electron transistors (SETs) are nanoscale electrometers of unprecedented sensitivity, and as ...
C1 - Journal Articles RefereedSolid-state quantum computer architectures with qubits encoded using s...
We propose a new solid state implementation of a quantum computer (quputer) using ballistic single e...
We report a nanofabrication, control and measurement scheme for charge-based silicon quantum computi...
International audienceQuantum computers require interfaces with classical electronics for efficient ...
A scheme of a multiqubit quantum computer on atomic ensembles using a quantum transistor implementin...
Recent advances in quantum error correction codes for fault-Tolerant quantum computing and physical ...
Donor-based spin qubits in silicon are promising candidates for solid-state quantum computation as t...
Fault-tolerant quantum computation requires qubit measurements to be both high fidelity and fast to ...
Several solid state quantum computer schemes are based on the manipulation of electron and/or nuclea...
We discuss progress towards the fabrication and demonstration of a prototype silicon-based quantum c...
We describe a method by which the decoherence time of a solid state qubit may be measured. The qubit...
A computer with quantum mechanical building blocks, or qubits, promises a new class of computational...
The proposal of quantum information processing has shown us the first serious possibility, though st...
The experimental study of semiconductors has advanced to the point where individual atoms can be add...
Single electron transistors (SETs) are nanoscale electrometers of unprecedented sensitivity, and as ...
C1 - Journal Articles RefereedSolid-state quantum computer architectures with qubits encoded using s...
We propose a new solid state implementation of a quantum computer (quputer) using ballistic single e...
We report a nanofabrication, control and measurement scheme for charge-based silicon quantum computi...
International audienceQuantum computers require interfaces with classical electronics for efficient ...
A scheme of a multiqubit quantum computer on atomic ensembles using a quantum transistor implementin...
Recent advances in quantum error correction codes for fault-Tolerant quantum computing and physical ...
Donor-based spin qubits in silicon are promising candidates for solid-state quantum computation as t...
Fault-tolerant quantum computation requires qubit measurements to be both high fidelity and fast to ...
Several solid state quantum computer schemes are based on the manipulation of electron and/or nuclea...
We discuss progress towards the fabrication and demonstration of a prototype silicon-based quantum c...
We describe a method by which the decoherence time of a solid state qubit may be measured. The qubit...
A computer with quantum mechanical building blocks, or qubits, promises a new class of computational...
The proposal of quantum information processing has shown us the first serious possibility, though st...
The experimental study of semiconductors has advanced to the point where individual atoms can be add...
Single electron transistors (SETs) are nanoscale electrometers of unprecedented sensitivity, and as ...