Tag: 256 qubits

Neutral-atom quantum computer reaches new milestone

Neutral-Atom Quantum Computer Achieves Record Accuracy and Coherence In the fast-paced world of quantum computing, where advancements are made at a breakneck speed, researchers at Caltech have recently achieved a remarkable milestone. By harnessing the power of optical tweezers, they have managed to reach an impressive 99.98% accuracy in single-qubit operations while maintaining coherence for […]

New quantum error correction code could handle millions of qubits efficiently

New Quantum Error Correction Code Could Handle Millions of Qubits Efficiently Scientists at the Institute of Science Tokyo have announced a breakthrough in quantum error correction that could revolutionize the field of quantum computing. The new quantum error correction code has the potential to handle millions of qubits efficiently, addressing one of the major challenges […]

Cold atoms on a chip promise minaturized quantum computers and sensors

Cold Atoms on a Chip: Revolutionizing Quantum Technology Imagine carrying a device in your pocket that can measure sea level rise with pinpoint accuracy, detect minute changes in gravitational pull, or even break complex encryption within seconds. While this may sound like something out of a sci-fi movie, the reality is that the future of […]

World’s largest quantum array assembled with 6,100 qubits, 99.98 percent accuracy

World’s largest quantum array assembled with 6,100 qubits, 99.98 percent accuracy Quantum computers need vast numbers of qubits to solve the hardest problems in science and technology, and the recent milestone achieved by researchers in assembling the world’s largest quantum array with 6,100 qubits at an astonishing 99.98 percent accuracy is a game-changer in the […]

Scientists hit 98% quantum gate fidelity with 3D-printed miniaturized ion traps

Scientists Achieve 98% Quantum Gate Fidelity with 3D-Printed Miniaturized Ion Traps Quantum computing researchers have long wrestled with a tradeoff. Planar ion traps, built with flat surfaces, are excellent for scalability but often suffer from errors due to their design. On the other hand, three-dimensional (3D) ion traps promise higher fidelity but are notoriously challenging […]

‘Talking on the telephone’: Quantum entanglement between two distant atoms achieved

Talking on the telephone: Quantum entanglement between two distant atoms achieved Researchers in Australia have successfully created ‘quantum entangled states’ between two distant atoms in silicon. This groundbreaking achievement in the realm of quantum physics opens up a myriad of possibilities for the future of communication and technology. Quantum entanglement is a phenomenon where two […]

World’s first quantum computer built with silicon chips found in laptops launched

World’s First Quantum Computer Built with Silicon Chips Found in Laptops Launched A UK startup has made a revolutionary advancement after delivering the world’s first full-stack quantum computer built with silicon chips commonly found in laptops. This groundbreaking achievement has the potential to reshape the landscape of computing as we know it. The company, QuantumLeap […]

Breathing room for quantum chips: Study shows noisy links can still scale systems

Breathing Room for Quantum Chips: Study Shows Noisy Links Can Still Scale Systems For years, the biggest hurdle in quantum computing has been scale. While quantum processors can perform incredibly complex calculations at speeds that surpass classical computers, the challenge lies in maintaining the delicate quantum states required for these calculations as more qubits are […]

Scientists create ‘world’s smallest cat video’ to advance quantum computing

Scientists Create ‘World’s Smallest Cat Video’ to Advance Quantum Computing A team of physicists has created a video using just 2,024 rubidium atoms, showcasing a groundbreaking advancement in the realm of quantum computing. This innovative feat, deemed the ‘world’s smallest cat video,’ marks a significant milestone in the ongoing quest to harness the power of […]

Discovery of flat bands in superconductors could advance next-gen computing

Discovery of Flat Bands in Superconductors Could Advance Next-Gen Computing Kagome metals, known for their distinctive two-dimensional lattices formed by corner-sharing triangles, have drawn significant attention in the world of physics and materials science. Recently, researchers have made a groundbreaking discovery within these materials that could potentially revolutionize the field of superconductivity and advance next-generation […]

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