Scalable quantum processors require high-fidelity universal quantum logic operations in a
manufacturable physical platform. Donors in silicon provide atomic size, excellent quantum …

Several domains of society will be disrupted once millions of high-quality qubits can be
brought together to perform fault-tolerant quantum computing (FTQC). All quantum …

Achieving strong coherent interaction between qubits separated by large distances holds
the key to many important developments in quantum technology, including new designs of …

Donor-based spin qubit offers a promising silicon quantum computing route for building
large-scale qubit arrays, attributed to its long coherence time and advancements in …

An implanted atom in a crystal lattice can become a dopant that changes the electrical
properties of the lattice or part of a defect complex known as a colour centre that has useful …

Advanced computer simulations are an indispensable tool for materials characterization and
understanding. Especially for potentially slow, expensive, or even dangerous experiments …

Spin qubits in silicon-based quantum devices are a candidate quantum computing
architecture because of their high fidelities, long coherence times and pathway to scalability …