International audienceQuantum computers require interfaces with classical electronics for efficient qubit control, measurement, and fast data processing. Fabricating the qubit and the classical control layer using the same technology is appealing because it will facilitate the integration process, improving feedback speeds and offering potential solutions to wiring and layout challenges. Integrating classical and quantum devices monolithically, using complementary metal-oxide-semiconductor (CMOS) processes, enables the processor to profit from the most mature industrial technology for the fabrication of large-scale circuits. We demonstrate a CMOS single-electron memory cell composed of a single quantum dot and a transistor that locks charge...
International audienceWe present recent progress in the implementation of scalable schemes for spin ...
The recent implementation of single electron quantum dots (QDs) in semiconductor hetero-structures a...
This thesis investigates the application of nanoscale CMOS and millimeter-wave (30 – 300 GHz) electr...
International audienceQuantum computers require interfaces with classical electronics for efficient ...
An integrated circuit fabricated using industry-standard 40 nm complementary metal-oxide-semiconduct...
Solid-state quantum computers require classical electronics to control and readout individual qubits...
Sensitive charge detection has enabled qubit readout in solid-state systems. Recently, an alternativ...
Semiconductor quantum dots in silicon demonstrate exceptionally long spin lifetimes as qubits and ar...
As quantum processors become more complex, they will require efficient interfaces to deliver signals...
The scalability of the quantum processor technology is elemental in reaching fault-tolerant quantum ...
Gate-defined quantum dots have been identified as a promising platform for quantum information proce...
International audienceThree key metrics for readout systems in quantum processors are measurement sp...
Extremely long coherence times, excellent single-qubit gate fidelities, and two-qubit logic have bee...
The understanding of quantum mechanics enabled the development of technology such as transistors and...
Solid-state qubits integrated on semiconductor substrates currently require at least one wire from e...
International audienceWe present recent progress in the implementation of scalable schemes for spin ...
The recent implementation of single electron quantum dots (QDs) in semiconductor hetero-structures a...
This thesis investigates the application of nanoscale CMOS and millimeter-wave (30 – 300 GHz) electr...
International audienceQuantum computers require interfaces with classical electronics for efficient ...
An integrated circuit fabricated using industry-standard 40 nm complementary metal-oxide-semiconduct...
Solid-state quantum computers require classical electronics to control and readout individual qubits...
Sensitive charge detection has enabled qubit readout in solid-state systems. Recently, an alternativ...
Semiconductor quantum dots in silicon demonstrate exceptionally long spin lifetimes as qubits and ar...
As quantum processors become more complex, they will require efficient interfaces to deliver signals...
The scalability of the quantum processor technology is elemental in reaching fault-tolerant quantum ...
Gate-defined quantum dots have been identified as a promising platform for quantum information proce...
International audienceThree key metrics for readout systems in quantum processors are measurement sp...
Extremely long coherence times, excellent single-qubit gate fidelities, and two-qubit logic have bee...
The understanding of quantum mechanics enabled the development of technology such as transistors and...
Solid-state qubits integrated on semiconductor substrates currently require at least one wire from e...
International audienceWe present recent progress in the implementation of scalable schemes for spin ...
The recent implementation of single electron quantum dots (QDs) in semiconductor hetero-structures a...
This thesis investigates the application of nanoscale CMOS and millimeter-wave (30 – 300 GHz) electr...