In the past decade, semiconducting qubits have made great strides in overcoming
decoherence, improving the prospects for scalability and have become one of the leading …

As quantum processors grow in complexity, attention is moving to the scaling prospects of
the entire quantum computing system, including the classical support hardware. Recent …

Abstract This Technical Review collects values of selected performance characteristics of
semiconductor spin qubits defined in electrically controlled nanostructures. The …

Universal quantum computation will require qubit technology based on a scalable platform,
together with quantum error correction protocols that place strict limits on the maximum …

Once called a 'classically non-describable two-valuedness' by Pauli, the electron spin forms
a qubit that is naturally robust to electric fluctuations. Paradoxically, a common control …

Quantum computing (QC) has already entered the industrial landscape and several
multinational corporations have initiated their own research efforts. So far, many of these …

Silicon quantum dots are attractive for the implementation of large spin-based quantum
processors in part due to prospects of industrial foundry fabrication. However, the large …

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 …

In a semiconductor spin qubit with sizable spin-orbit coupling, coherent spin rotations can be
driven by a resonant gate-voltage modulation. Recently, we have exploited this opportunity …

Micromagnet-based electric dipole spin resonance offers an attractive path for the near-term
scaling of dense arrays of silicon spin qubits in gate-defined quantum dots while maintaining …