A Canadian startup called Xanadu has built a new quantum computer it says can be easily scaled up to achieve the computational power needed to tackle scientific challenges ranging ...

Trapped-ion quantum computing leader IonQ (NYSE: IONQ) is emerging as a potential leader in the commercialization of quantum ...

Quantum computers have the potential of outperforming classical computers on some optimization and computational tasks.

Detailed price information for Fidelity National Information Services (FIS-N) from The Globe and Mail including charting and trades.

Unlike traditional superconducting quantum ... quantum computing companies focus on the number of physical qubits, IonQ uses "algorithmic qubits" to represent the computational power available ...

The chip has broken new ground in a key random circuit sampling benchmark, an important development in Google's roadmap for ...

Scientists trapped ultra-cold molecules, improving quantum computing with better stability, accuracy, and computational possibilities.

Once confined to the province of abstract theory, quantum computing seeks to use operations based on quantum mechanics to ...

Molecules haven't been used in quantum computing, even though they have the potential to make the ultra-high-speed ...

Instead of using more traditional quantum computers that include "loops of supercooled superconducting wire or intentional imperfections crystalline silicon," IonQ uses trapped ions instead.

A key component of quantum computers is the qubit, which is the quantum analogue of a classical bit. Superconducting qubits, in particular, have gained significant attention due to their potential ...