News Feed
939 quantum news items from across the web.
Research showing Majorana modes' resilience to disorder is a significant scientific breakthrough, directly supporting the development of more stable topological qubits.
Alice & Bob's work on Cat Qubits and establishing criteria for logical qubit evaluation is a significant development, proposing an efficient path to error correction.
This article discusses reproducibility in AI for science and HPC, with no direct mention or clear relevance to quantum computing.
The creation of a new kind of Schrödinger's cat by Oxford physicists represents a significant scientific breakthrough in understanding quantum states, potentially impacting future qubit or error correction research.
Xanadu's breakthrough in reducing the cost of quantum applications is a major development with practical implications for broader adoption and economic viability.
This represents a relevant incremental advance in quantum hardware reliability and the practical application of certified random number generation.
This describes incremental research in software development tools, likely for quantum code migration, which is a relevant but not major step.
China's unveiling of a 'dual-core' quantum computer with claims of improved stability and efficiency is a notable hardware development from a major global player.
Rigetti's advancement with its Cepheus processor towards quantum advantage is a notable product development for one of the key quantum computing companies.
The demonstration of the 'first' superradiant single-photon source that surpasses an existing protocol is a major scientific breakthrough in quantum photonics, with implications for quantum communication.
A $1M government grant for a specialized material (RF dielectric) for superconducting quantum computing is a positive development for a specific hardware component, but the funding is not large.
This confirms a $1M grant for a specific material crucial for scaling superconducting quantum computing, which is a notable hardware advancement effort, though the funding is modest.
A $1M government-funded project for 'redesigning wiring' (likely related to materials/interconnects) is a relevant incremental hardware development.
The launch of 'Wukong,' China's third-generation quantum computer, signifies a major national achievement in hardware development and advancements in a key global player.
A novel quantum error correction approach from IQM is a significant scientific development with practical implications for achieving fault-tolerant quantum computing, a critical milestone for the industry.
The development of a self-testing quantum chip for digital security is a notable advance in hardware reliability and potential applications.
A field demonstration of Quantum Key Distribution (QKD) on deployed infrastructure is a notable step towards practical quantum communication.
A sevenfold improvement in predicting superconducting qubit errors is a major scientific breakthrough crucial for achieving fault tolerance.
New cryogenic silicon carbide hardware addressing a quantum computing bottleneck represents a notable development in hardware technology.
A breakthrough showing quantum codes correct errors nine times more effectively on a single chip is a major scientific achievement, critical for fault tolerance.