Identifying and designing physical systems for use as qubits, the basic units of quantum
information, are critical steps in the development of a quantum computer. Among the …

The successful implementation of the nitrogen-vacancy (NV) center in diamond as a qubit
has spawned a great deal of interest in this defect. In principle, similar defects suitable for …

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

Artificial atoms like the nitrogen vacancy (NV) centers in diamond enable the realization of
fully functional qubits in a solid at room temperature. The functionalities of all the parts …

The nitrogen-vacancy defect center (NV center) is a promising candidate for quantum
information processing due to the possibility of coherent manipulation of individual spins in …

Quantum computers have the potential to speed up certain problems that are hard for
classical computers. Hybrid systems, such as the nitrogen-vacancy (NV) center in diamond …

We have investigated the optical properties of the (NV)− center in 3C-SiC to determine the
photoluminscence zero phonon line (ZPL) associated with the E 3→ A 2 3 intracenter …

We present calculations of both the ground-and excited-state energies of spin defects in
solids carried out on a quantum computer, using a hybrid classical-quantum protocol. We …

The exotic features of quantum mechanics have the potential to revolutionize information
technologies. Using superposition and entanglement, a quantum processor could efficiently …

Qubits based on colour centres in diamond became a prominent system for solid-state
quantum information processing and sensing. But the deterministic creation of qubits and …