In the effort to develop disruptive quantum technologies, germanium is emerging as a
versatile material to realize devices capable of encoding, processing and transmitting …

Full-scale quantum computers require the integration of millions of qubits, and the potential
of using industrial semiconductor manufacturing to meet this need has driven the …

Quantum computers, if fully realized, promise to be a revolutionary technology. As a result,
quantum computing has become one of the hottest areas of research in the last few years …

The most promising quantum algorithms require quantum processors that host millions of
quantum bits when targeting practical applications. A key challenge towards large-scale …

Single holes confined in semiconductor quantum dots are a promising platform for spin-qubit
technology, due to the electrical tunability of the g factor of holes. However, the underlying …

Silicon nanoelectronic devices can host single-qubit quantum logic operations with fidelity
better than 99.9%. For the spins of an electron bound to a single-donor atom, introduced in …

Quantum dots fabricated using methods compatible with semiconductor manufacturing are
promising for quantum information processing. In order to fully utilize the potential of this …

Continuing advancements in quantum information processing have caused a paradigm shift
from research mainly focused on testing the reality of quantum mechanics to engineering …

This letter presents a single-electron injection device for position-based charge qubit
structures implemented in 22-nm fully depleted silicon-on-insulator CMOS. Quantum dots …

The past two decades have witnessed the rapid development of quantum computers.
Superconducting circuits are one of the most attractive platforms, and its corresponding …