Quantum computers hold the potential of solving some optimization and data processing problems that cannot be tackled by ...

By entangling vibrations within a single atom, scientists have realized a long-theorized quantum code that could make ...

Like logic gates in classical computers, quantum computing applications require quantum gates to change the state of qubits —- enabling them to perform complex calculations. However, it is only ...

A research team has created a quantum logic gate that uses fewer qubits by encoding them with the powerful GKP ...

To build a large-scale quantum computer that works, scientists and engineers need to overcome the spontaneous errors that ...

Quantum computers, systems that perform computations leveraging quantum mechanical effects, could outperform classical computers in some optimization and information processing tasks. As these systems ...

D-Wave launches initiative to develop advanced cryogenic packaging for both gate-model and annealing quantum processors. The ...

Quantum scientists at the Quantum Control Laboratory at the University of Sydney Nano Institute have demonstrated a type of ...

Integrated quantum computing company Quantinuum Ltd. today unveiled new open-source software tools designed to accelerate ...

Sydney team cracks GKP code using harmonic motion in a trapped ion Quantum researchers at the University of Sydney Nano ...

Researchers have developed a new protocol for characterizing quantum gate errors, paving the way toward more reliable quantum simulations and fault-tolerant quantum computing.

Researchers from Peking University and collaborators have proposed a novel scheme to realize quantum controlled-Z (CZ) gates using a single gradient metasurface. This innovation enables high ...