Colloquium: Advances in automation of quantum dot devices control
Arrays of quantum dots (QDs) are a promising candidate system to realize scalable, coupled
qubit systems and serve as a fundamental building block for quantum computers. In such …
qubit systems and serve as a fundamental building block for quantum computers. In such …
Single-electron occupation in quantum dot arrays at selectable plunger gate voltage
The small footprint of semiconductor qubits is favorable for scalable quantum computing.
However, their size also makes them sensitive to their local environment and variations in …
However, their size also makes them sensitive to their local environment and variations in …
Learning-based calibration of flux crosstalk in transmon qubit arrays
Superconducting quantum processors comprising flux-tunable data and coupler qubits are a
promising platform for quantum computation. However, magnetic flux crosstalk between the …
promising platform for quantum computation. However, magnetic flux crosstalk between the …
Autonomous bootstrap** of quantum dot devices
A Zubchenko, D Middlebrooks, T Rasmussen… - arxiv preprint arxiv …, 2024 - arxiv.org
Semiconductor quantum dots (QD) are a promising platform for multiple different qubit
implementations, all of which are voltage-controlled by programmable gate electrodes …
implementations, all of which are voltage-controlled by programmable gate electrodes …
Tuning arrays with rays: Physics-informed tuning of quantum dot charge states
Quantum computers based on gate-defined quantum dots (QDs) are expected to scale.
However, as the number of qubits increases, the burden of manually calibrating these …
However, as the number of qubits increases, the burden of manually calibrating these …
MAViS: Modular Autonomous Virtualization System for Two-Dimensional Semiconductor Quantum Dot Arrays
Arrays of gate-defined semiconductor quantum dots are among the leading candidates for
building scalable quantum processors. High-fidelity initialization, control, and readout of spin …
building scalable quantum processors. High-fidelity initialization, control, and readout of spin …
QDA: A principled approach to automatically annotating charge stability diagrams
B Weber, JP Zwolak - arxiv preprint arxiv:2312.11206, 2023 - arxiv.org
Gate-defined semiconductor quantum dot (QD) arrays are a promising platform for quantum
computing. However, presently, the large configuration spaces and inherent noise make …
computing. However, presently, the large configuration spaces and inherent noise make …
Fast Virtual Gate Extraction For Silicon Quantum Dot Devices
Silicon quantum dot devices stand as promising candidates for large scale quantum
computing due to their extended coherence times compact size, and recent experimental …
computing due to their extended coherence times compact size, and recent experimental …
Automatic detection of single-electron regime of quantum dots and definition of virtual gates using U-Net and clustering
Y Muto, MR Zielewski, M Shinozaki, K Noro… - arxiv preprint arxiv …, 2025 - arxiv.org
To realize practical quantum computers, a large number of quantum bits (qubits) will be
required. Semiconductor spin qubits offer advantages such as high scalability and …
required. Semiconductor spin qubits offer advantages such as high scalability and …
[HTML][HTML] Efficient characterization of a double quantum dot using the Hubbard model
Semiconductor quantum dots are favorable candidates for quantum information processing
due to their long coherence time and potential scalability. However, the calibration and …
due to their long coherence time and potential scalability. However, the calibration and …