Add to ORKGWe apply the full power of modern electronic band structure engineering and epitaxial heterostructures to design a transistor that can sense and control a single donor electron spin. Spin resonance transistors may form the technological basis for quantum information processing. One and two qubit operations are performed by applying a gate bias. The bias electric field pulls the electron wave function away from the dopant ion into layers of different alloy composition. Owing to the variation of the g-factor (Si:g=1.995, Ge:g=1.563), this displacement changes the spin Zeeman energy, allowing single-qubit operations. By displacing the electron even further, the overlap with neighboring qubits is affected, which allows two-qubit operations. Cer...
The understanding of quantum mechanics enabled the development of technology such as transistors and...
We suggest an architecture for quantum computing with spin-pair encoded qubits in silicon. Electron-...
Spin qubits in silicon have emerged as a promising candidate for a scalable quantum computer due to ...
Recent work has shown that electron spins in germanium (Ge) nanoscale transistors can be electricall...
A computer with quantum mechanical building blocks, or qubits, promises a new class of computational...
A quantum computer utilizes the laws of quantum mechanics and performs logic operations on quantum t...
Spin is a quantum mechanical property that describes the magnetic orientation of elementary and comp...
Donor-based spin qubits in silicon are promising candidates for solid-state quantum computation as t...
International audienceDopant atoms are ubiquitous in semiconductor technologies, providing the tailo...
Over the past several decades, quantum information science research has proven its importance to the...
Spin qubits in silicon are among the most promising candidates for building a scalable quantum proce...
Large-scale quantum computers have the potential to perform calculations that are otherwise impossib...
Spin quantum bits (qubits) defined in semiconductor quantum dots have emerged as a promising platfor...
Donor spins in silicon provide a promising material platform for large scale quantum computing. Exce...
Phosphorus donor impurities in a silicon substrate are a promising platform for the development of a...
The understanding of quantum mechanics enabled the development of technology such as transistors and...
We suggest an architecture for quantum computing with spin-pair encoded qubits in silicon. Electron-...
Spin qubits in silicon have emerged as a promising candidate for a scalable quantum computer due to ...
Recent work has shown that electron spins in germanium (Ge) nanoscale transistors can be electricall...
A computer with quantum mechanical building blocks, or qubits, promises a new class of computational...
A quantum computer utilizes the laws of quantum mechanics and performs logic operations on quantum t...
Spin is a quantum mechanical property that describes the magnetic orientation of elementary and comp...
Donor-based spin qubits in silicon are promising candidates for solid-state quantum computation as t...
International audienceDopant atoms are ubiquitous in semiconductor technologies, providing the tailo...
Over the past several decades, quantum information science research has proven its importance to the...
Spin qubits in silicon are among the most promising candidates for building a scalable quantum proce...
Large-scale quantum computers have the potential to perform calculations that are otherwise impossib...
Spin quantum bits (qubits) defined in semiconductor quantum dots have emerged as a promising platfor...
Donor spins in silicon provide a promising material platform for large scale quantum computing. Exce...
Phosphorus donor impurities in a silicon substrate are a promising platform for the development of a...
The understanding of quantum mechanics enabled the development of technology such as transistors and...
We suggest an architecture for quantum computing with spin-pair encoded qubits in silicon. Electron-...
Spin qubits in silicon have emerged as a promising candidate for a scalable quantum computer due to ...