Quantum computers—devices that process information using quantum mechanical effects—have long been expected to outperform ...

Xanadu (Xanadu Quantum Technologies Inc.), a world leader in photonic quantum computing, in partnership with Mitsubishi Chemical, a major Japanese chemical manufacturer, has announced the release of a ...

Imagine trying to design a key for a lock that is constantly changing its shape. That is the exact challenge we face in ...

The commonly used RSA encryption algorithm can now be cracked by a quantum computer with only 100,000 qubits, but the technical challenges to building such a machine remain numerous ...

The Bitcoin network took its first step towards quantum-computing resistance with the addition of BIP 360 to its repository.

Xanadu’s quantum algorithm is particularly well-suited for reactions in organic and photo-organic systems, which is critical for progressing many important technologies. This research represents a ...

RENO, Nev., February 4, 2026 — CIQ today announced that Network Security Services (NSS) for Rocky Linux from CIQ (RLC) 9.6 with post-quantum cryptography (PQC) algorithms has achieved Cryptographic ...

This voice experience is generated by AI. Learn more. This voice experience is generated by AI. Learn more. Parts of the IBM Quantum System Two are displayed at IBM Thomas J. Watson Research Center on ...

Quantum computing uses quantum mechanics—the physics governing particles at atomic and subatomic scales—to process information in totally different ways from today’s digital computers. Instead of ...

Just a few years ago, many researchers in quantum computing thought it would take several decades to develop machines that could solve complex tasks, such as predicting how chemicals react or cracking ...

Quantum computers struggle because their qubits are incredibly easy to disrupt, especially during calculations. A new experiment shows how to perform quantum operations while continuously fixing ...

Looking ahead: Quantum computing's greatest promise remains its greatest paradox: the same conditions that let qubits perform extraordinary feats of calculation also make them exceptionally fragile.