Archer Materials’ 12CQ On-Chip Qubit Readout Takes Significant Step
Archer has now successfully fabricated nanodevices that will allow probing of quantum behavior in its qubit material that is of fundamental importance to the 12CQ chip technology operation.
SK Broadband: A Perfect Firewall For South Korea?
SK broadband, a broadband internet service operator in South Korea, has applied quantum cryptography communication technology to a newly established national convergence network as a perfect firewall against eavesdropping or hacking attacks to steal national confidentiality and information.
Breakthrough Paves Way for Photonic Sensing at the Ultimate Quantum Limit
A Bristol-led team of physicists has found a way to operate mass manufacturable photonic sensors at the quantum limit. This breakthrough paves the way for practical applications such as monitoring greenhouse gases and cancer detection.
The Outlook for Quantum Technology is a Rising Sun
Amid the fierce global competition to develop the technology, the Government of Japan has formulated the Vision of Quantum Future Society in April of this year, and is accelerating R&D in that field…
Brilliant! Pawsey Supercomputing Centre Adds Quantum Processor to Its Supercomputer, Plans to Test the Limits of Room-Temperature Quantum Computing
In a partnership with Australian-German startup Quantum Brilliance, Pawsey installed a diamond-based quantum accelerator into a rack in its Western Australian facilities.
Emulating Impossible ‘Unipolar’ Laser Pulses Paves the Way for Processing Quantum Information
A laser pulse that sidesteps the inherent symmetry of light waves could manipulate quantum information, potentially bringing us closer to room temperature quantum computing. The study, led by researchers at the University of Regensburg and the University of Michigan, could also accelerate conventional computing.
Unique Quantum Material Could Enable Ultra-powerful, Compact Computers | Columbia Quantum Initiative
Information in computers is transmitted through semiconductors by the movement of electrons and stored in the direction of the electron spin in magnetic materials. To shrink devices while improving their performance—a goal of an emerging field called spin-electronics (“spintronics”)—researchers are searching for unique materials that combine both quantum properties.
Further Proof That High-Performance Quantum Computers Can Be Built So Both Qubit Count and Gate Fidelity Improve Simultaneously
IonQ (NYSE: IONQ), an industry leader in quantum computing, announced IonQ Forte, its latest generation of quantum systems. The system features novel, cutting-edge optics technology that enables increased accuracy and further enhances IonQ’s industry leading system performance. Forte is expected to be initially available for select developers, partners, and researchers in 2022 and is expected to be available for broader customer access in 2023.
Trends Driving Compute Infrastructure Innovation
While quantum computing’s (QC) true potential remains a decade away, there is sufficient progress in the field to justify I&O’s exploration of quantum techniques to address business problems.
Processor Realized by QuiX Quantum to Be Core Component of Europe’s Quantum Sampling Machine
QuiX Quantum, the market leader in photonic quantum computing hardware, has realized the largest quantum photonic processor compatible with quantum dots for the European project PHOQUSING. The project aims to realize a quantum sampling machine that will push the potential of photonic quantum computing forward in showing a European quantum advantage. The processor realized by QuiX Quantum is the core component of the quantum sampling machine.