Materials for silicon quantum dots and their impact on electron spin qubits
Quantum computers have the potential to efficiently solve problems in logistics, drug and
material design, finance, and cybersecurity. However, millions of qubits will be necessary for …
material design, finance, and cybersecurity. However, millions of qubits will be necessary for …
Performance of planar floquet codes with majorana-based qubits
Quantum error correction is crucial for any quantum computing platform to achieve truly
scalable quantum computation. The surface code and its variants have been considered the …
scalable quantum computation. The surface code and its variants have been considered the …
Pauli blockade in silicon quantum dots with spin-orbit control
Quantum computation relies on accurate measurements of qubits not only for reading the
output of the calculation, but also to perform error correction. Most proposed scalable silicon …
output of the calculation, but also to perform error correction. Most proposed scalable silicon …
Fast gate-based readout of silicon quantum dots using Josephson parametric amplification
Spins in silicon quantum devices are promising candidates for large-scale quantum
computing. Gate-based sensing of spin qubits offers a compact and scalable readout with …
computing. Gate-based sensing of spin qubits offers a compact and scalable readout with …
Protecting quantum entanglement from leakage and qubit errors via repetitive parity measurements
Protecting quantum information from errors is essential for large-scale quantum
computation. Quantum error correction (QEC) encodes information in entangled states of …
computation. Quantum error correction (QEC) encodes information in entangled states of …
Variational circuit compiler for quantum error correction
Quantum error correction is vital for implementing universal quantum computing. A key
component is the encoding circuit that maps a product state of physical qubits into the …
component is the encoding circuit that maps a product state of physical qubits into the …
Coherent errors in stabilizer codes caused by quasistatic phase dam**
Quantum error correction is a key challenge for the development of practical quantum
computers, a direction in which significant experimental progress has been made in recent …
computers, a direction in which significant experimental progress has been made in recent …
Remote capacitive sensing in two-dimensional quantum-dot arrays
We investigate gate-induced quantum dots in silicon nanowire field-effect transistors
fabricated using a foundry-compatible fully depleted silicon-on-insulator (FD-SOI) process. A …
fabricated using a foundry-compatible fully depleted silicon-on-insulator (FD-SOI) process. A …
Looped pipelines enabling effective 3d qubit lattices in a strictly 2d device
Many quantum computing platforms are based on a two-dimensional (2D) physical layout.
Here we explore a concept called looped pipelines, which permits one to obtain many of the …
Here we explore a concept called looped pipelines, which permits one to obtain many of the …
Near-Term Spin-Qubit Architecture Design via Multipartite Maximally-Entangled States
The design and benchmarking of quantum computer architectures traditionally rely on
practical hardware restrictions, such as gate fidelities, control, and cooling. At the theoretical …
practical hardware restrictions, such as gate fidelities, control, and cooling. At the theoretical …