New research allows for faster computation cycles and more robust error correction, accelerating Infleqtion’s path toward industrial-scale neutral-atom quantum ...

Over the past decades, quantum scientists have introduced various technologies that operate leveraging quantum mechanical ...

Quantum computers could solve certain problems that would take traditional classical computers an impractically long time to solve. At the Japan Advanced Institute of Science and Technology (JAIST), ...

In an attempt to speed up quantum measurements, a new Physical Review Letters study proposes a space-time trade-off scheme that could be highly beneficial for quantum ...

Atom Computing today announced the successful integration of NVIDIA NVQLink - a low latency, high-bandwidth communication interface - into Atom Computing's proprietary control-systems stack. With ...

Measurement-based quantum computation (MBQC) represents an alternative paradigm to the conventional circuit model, where computation is achieved by preparing a highly entangled resource state and ...

Devices that can confine individual electrons are potential building blocks for quantum information systems. But the electrons must be protected from external disturbances. RIKEN researchers have now ...

Researchers developed compilation-based quantum process tomography, a framework that reconstructs quantum operations using fewer measurements than conventional methods.

As enterprises and public institutions worldwide move from quantum exploration to long-term deployment, the challenge has ...

After decades of theory, quantum computing is moving toward real-world utility, with breakthroughs in error correction bringing both commercial opportunity and urgent cybersecurity risks closer to ...

Gilles Brassard and Charles H. Bennett share the 2025 Turing Award for their pioneering work on quantum information science.