News Feed
143 quantum news items from across the web.
IonQ's experimental demonstration of breakeven qLDPC and other error-correcting codes on a trapped-ion architecture represents a significant step towards practical fault-tolerant quantum computing.
Developing an analytical framework for benchmarking logical qubit performance is a notable step towards fault-tolerant quantum computing, addressing a key industry challenge.
The reported experimental implementation of a QRAM architecture on a superconducting processor, published in Nature Physics, is a notable hardware breakthrough for future quantum systems.
This provides a high-level overview of the ongoing multi-modality competition in quantum hardware, which is important for understanding the investment landscape and risks.
Identifying the origin of noise in spin qubits and demonstrating improved gate fidelity is a significant scientific breakthrough for hardware reliability and error correction.
This details a significant scientific breakthrough demonstrating QRAM architecture on a superconducting processor, crucial for scaling quantum computing.
C12's automated nanoassembly for carbon nanotube qubit fabrication is a notable development for standardizing quantum hardware manufacturing.
A European project to integrate quantum key distribution functions onto a single silicon chip represents a notable advance in quantum communication hardware.
Researchers stabilized a new phase of matter exhibiting room-temperature quantum optical behavior, representing a significant scientific breakthrough with potential long-term implications for quantum technology.
An annual open-source community event for quantum software development is relevant for ecosystem building but not a major breakthrough or funding event.
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 inauguration of a major innovation center with significant funding ($147.5M USD) dedicated to deep-tech and quantum commercialization represents a major national investment.
This analysis piece discusses modularity, a critical technical direction for scaling quantum hardware, offering important strategic insight for investors.
Researchers achieving mathematically certifiable perfect randomness using entangled quantum bits is a significant scientific breakthrough with practical implications for cryptography and digital security.
A significant scientific breakthrough in integrating neutral atoms with photonic chips, crucial for scalable quantum hardware development.
Achieving high gate fidelity on Rigetti hardware using Quantum Machines' control system marks an important interoperability and performance milestone for the quantum ecosystem.
D-Wave's systematic rebuttal of claims questioning its 'beyond-classical' simulation milestones is a significant development in the scientific debate over quantum advantage.
An AI-powered robotic lab for creating quantum materials and devices is a notable scientific advancement that could accelerate quantum hardware development.
This is a notable technical development demonstrating progress in utilizing NISQ hardware at a relatively large scale for structured output patterns on IBM's 96-qubit system.