University of Tennessee researchers James Ostrowski and Rebekah Herrman are developing quantum-computing tools to tackle multi-stage stochastic decision problems in fields like energy, logistics, and ...

The world of quantum computing is a noisy place, where error correction is needed to ensure quantum devices run correctly ...

Starware’s CPO has proposed a solution that would make Bitcoin users make quantum-safe transactions today without protocol changes, though high costs make it impractical for everyday use.

Mid-circuit measurements are one of the biggest practical hurdles in quantum error correction on encoded qubits. Researchers in Innsbruck and Aachen have now proposed and experimentally demonstrated ...

​For much of the past decade, post-quantum cryptography (PQC) lived primarily in academic journals and standards committees.

New research suggests quantum computers capable of breaking internet encryption may arrive sooner than expected—with AI ...

New research suggests that a quantum computer could crack a crucial cryptography method with just 10,000 qubits.

One paper finds that attacking the bitcoin blockchain through quantum mining would demand the energy output of a star.

Researchers at ETH Zurich have realized particularly stable quantum logical operations with qubits made of neutral atoms.

Developers are considering ways to quantum-proof the world's oldest cryptocurrency as the threat of this computing moves beyond a hypothetical.

Guidance for CSA members on deploying post-quantum crypto in cloud-native zero-trust architectures, with priorities, timelines, and governance.

Qiskit and Q# are major quantum programming languages from IBM and Microsoft, respectively, used for creating and testing ...