News Feed
939 quantum news items from across the web.
Development of a 'world-first' cryogenic neuromorphic chip could have significant implications for advancing quantum scaling and related hardware.
This is a general opinion piece on the progress of quantum computing, offering no specific news or breakthroughs.
Alice & Bob, a key company, demonstrating the encoding of their first logical qubit using 18 cat-qubits represents a major scientific breakthrough in the pursuit of fault-tolerant quantum computing.
This describes academic research applying AI and quantum computing to materials development, which is relevant for future applications but not a direct commercial or major scientific breakthrough.
The article focuses on AI-driven scientific research infrastructure at Fermilab, with no direct mention or clear relevance to quantum computing.
This is an incremental research item demonstrating a potential application of quantum computing in materials development, relevant but not a major breakthrough.
This appears to be a general explanatory article on building quantum chips, offering background information rather than specific new developments or breakthroughs.
The article discusses potential future implications of quantum computing for cybersecurity, providing relevant forward-looking analysis but not immediate news.
IBM Research exploring the use of LLMs for discovering quantum error correction codes is a significant and innovative scientific inquiry at the intersection of AI and quantum computing.
A report on the path to commercial quantum advantage in energy optimization from two quantum companies indicates important progress in application development.
Improved logical error rates via correction and detection, published in Nature, represent a major scientific breakthrough crucial for the scalability and utility of quantum processors.
Research into more resilient distributed quantum computing systems is a relevant scientific advancement, addressing critical challenges for future quantum networks.
AI-assisted discovery of large-scale quantum effects in materials is a notable scientific finding that could open new avenues for quantum hardware and material science.
Research suggesting a path to fault tolerance in distributed quantum systems is a notable step towards scalable and robust quantum computing.
The successful translation and analysis of an entire viral genome by a quantum computer represents a significant breakthrough in applying quantum algorithms to complex biological data.
Demonstrating Toric Code outperforming monolithic qubits at a low error rate is a significant scientific breakthrough with practical implications for fault-tolerant quantum computing.
Research into the fundamental principles of quantum error correction, concerning information within qubits, is an important theoretical paper for the field.
Computing a complex polynomial on a commercial quantum computer like Quantinuum’s H2-2 with error mitigation is a notable step in demonstrating practical utility and hardware capabilities.
Research suggesting distributed quantum computing can enable scalable and resilient systems addresses a fundamental challenge and is an important theoretical advance for the field.
Demonstrating a digital Fermionic Laughlin state with trapped ions is an important scientific achievement, pushing the boundaries of quantum simulation capabilities.