News Feed
939 quantum news items from across the web.
This describes a potential fundamental discovery of a new phase of matter that could significantly transform future quantum technology and hardware development.
Important research in fully modeling crosstalk noise, which is crucial for understanding and ultimately mitigating errors in quantum computers.
A major scientific breakthrough demonstrating quantum computing with twisted light without extreme cooling, potentially removing a significant practical barrier for quantum hardware development.
A Stanford breakthrough enabling quantum computing without extreme cooling could significantly reduce operational barriers and accelerate hardware development.
This demonstrates a notable practical application of Rigetti's superconducting processor, showcasing progress in simulating complex physics with error mitigation techniques.
Achieving 99.5% two-qubit gate fidelity on a commercial QPU (Rigetti's Novera) is a major scientific breakthrough, crucial for developing robust and error-corrected quantum computers.
The establishment of a new innovation center by a prominent institute focused on quantum commercialization is a notable institutional move to foster talent and R&D.
The news item discusses open-source HPC development, which is largely tangential to quantum computing investment.
This item discusses the general potential of quantum computing for energy grids, which is informative but not new news or a breakthrough.
The article discusses the general risks of delaying quantum encryption strategies, offering educational content rather than new developments.
This is a general commentary piece on the state of the quantum computing industry, not reporting a new event or breakthrough.
This describes a significant scientific breakthrough in quantum sensing, which could have foundational implications for quantum technologies.
This is a speculative article about the well-known potential long-term threat of quantum computers to cryptography, not new scientific findings or company news.
This is a general, high-level article about the potential future applications of quantum computing, lacking concrete developments or specific company impact.
This article appears to be about traditional high-performance computing (HPC) and does not explicitly mention quantum computing, making it largely irrelevant for quantum investors.
An inside look at a major university quantum research center provides relevant insight into ongoing R&D and talent development in a key hardware modality (ion traps).
This analysis piece discusses modularity, a critical technical direction for scaling quantum hardware, offering important strategic insight for investors.
The establishment of a new national-focused quantum research laboratory at MIT signifies substantial institutional investment in fundamental quantum R&D.
This appears to be fundamental physics research on light control, which might have future tangential relevance but isn't a direct quantum computing breakthrough.
A 'breakthrough in perfect randomness' has potential relevance for quantum cryptography and cybersecurity, though specifics on its quantum nature are needed for a higher score.