Quantum computers promise to tackle problems that are unsolvable for today’s machines, but their basic units (qubits) are incredibly fragile. Even a tiny disturbance can wipe out the entire delicate ...

Three RIKEN researchers have demonstrated a way to stop problematic "dark modes" from squelching intriguing effects in quantum systems. This advance could help with the development of more versatile ...

Integrating quantum computing into AI doesn’t require rebuilding neural networks from scratch. Instead, I’ve found the most effective approach is to introduce a small quantum block—essentially a ...

This paper is motivated by four research questions. RQ1: Can a standardized, two-qubit QT block implement a useful, transistor-like gating and amplification nonlinearity with stable gradients suitable ...

Scientists have discovered a new way to control quantum light sources by twisting atomically ...

D-Wave Quantum Inc. has released a new research paper outlining a novel blockchain architecture that integrates quantum capabilities with traditional blockchain technology to enhance security and ...

Scientists at EPFL have made a breakthrough in designing arrays of resonators, the basic components that power quantum technologies. This innovation could create smaller, more precise quantum devices.

IBM Quantum System Two is the building block of quantum-centric supercomputing. IBM Quantum System Two is the bedrock for scalable quantum computation. It is now operational at IBMs lab in Yorktown ...

Quantum computers signify a groundbreaking advancement in computational technology, offering the potential for exponential speed improvements that surpass the limitations of classical computing 1. In ...