IBM’s Project Goldeneye Pushes Quantum Computing Cryogenics to the Minimum (Temperature, That Is)
Project Goldeneye pushes the limits of low-temperature refrigeration while laying the groundwork for the quantum industry’s ability to scale to larger experiments.
Archer Materials Teams With World-Leading Semiconductor Foundry to Develop ¹²CQ Chip
Archer has commenced working with GlobalFoundries towards industry fabrication of its ¹²CQ quantum chip technology.
Quantum Technology: Extending EV Driving Range With Diamond Quantum Sensors
[A] team of scientists reported a diamond quantum sensor-based detection technique that can estimate the battery charge within 1% accuracy while measuring high currents typical of EVs.
Amid Challenges, the UK Government Continues to Fund Quantum Success
The UK touts itself as a world leader in quantum technologies and the truth is, they actually are.
Report: Fujitsu & Riken to Offer 1st Japan-Made Quantum Computer in 2023
Japan’s Fujitsu and Riken research institute plan to jointly offer quantum computers to companies in fiscal 2023.
Study Expands the Toolbox of Quantum Technology
Researchers from Göttingen (Germany) and Lausanne (Switzerland) have successfully created electron-photon pairs in a controlled way in an electron microscope for the first time.
Recently Demonstrated: Quantum Entanglement Between Two Memory Devices Located 12.5 KM Apart in an Urban Environment
Researchers at the University of Science and Technology of China and Jinan Institute of Quantum Technology have recently demonstrated quantum entanglement between two memory devices located at 12.5 km apart from each other within an urban environment.
Archer Materials Scores Hong Kong Patent for ¹²CQ Quantum Computing Chip
¹²CQ chip technology patent is granted in Hong Kong.
Closing in on Breakeven Point in Quantum Error Correction
Quantinuum researchers have hit a significant milestone by entangling logical qubits in a fault-tolerant circuit using real-time quantum error correction.
Breaking the Bonds of Binary Computing Could Squelch Post-Quantum Encryption
If quantum computers can be made to operate more efficiently, while also eliminating the noise they generate with their answers, it could boost the already fast-moving quantum development timeline.