… to defect systems analogous to the NV -1 defect in diamond. Specifically, we discuss defect
… applications, and in Trends in Defect-Level Splitting in SI Text we address how the choice of …

… The successful development of quantum computers is dependent on identifying quantum
systems to function as qubits. Paramagnetic states of point defects in semiconductors or …

… topological defects: Spins change orientation, kinks punctuating ordered sections of the
chain. The number of such defects quantifies the extent by which the quantum computer misses …

… interest in this defect. In principle, similar defects suitable for quantum computing should exist
… in diamond in the context of uncovering similar defects in other materials, with the specific …

… of a quantum defect, the drive toward a given quantum … be constructed for other quantum
defects. For example, the … from the Kane proposal for a silicon quantum computer [74], while a …

… quantum computing with symmetry defects in the language of fusion categories and unitary
representations. Symmetry defects … exchanging anyons and symmetry defects in topological …

The idea that quantum mechanical machines can perform certain information-processing
tasks much faster than any classical computer has captured the imagination of many people. …

… limit progress in five quantum computing hardware platforms, propose … the current boundaries
of the quantum computing field. … Atomic-scale steps and defects at this interface can lead to …

… spin defects in solids carried out on a quantum computer, using a hybrid classical-quantum …
for the realization of quantum technologies. We employ a recently developed first-principles …

… conditions need to be met: deep defect levels, high spin states, high … Deep defect levels
help increase the fidelity of stored quantum information, which means that the quantum defects …