Quantum Breakthrough: New Method Preserves Information Against All Odds
Add a dash of creamer to your morning coffee, and clouds of white liquid will swirl around your cup. But give it a few seconds,…
Add a dash of creamer to your morning coffee, and clouds of white liquid will swirl around your cup. But give it a few seconds,…
With a quick pulse of light, researchers can now find and erase errors in real time. Researchers have developed a method that can reveal the…
Researchers at the University of Basel have built a quantum memory element based on atoms in a tiny glass cell. In the future, such quantum…
Researchers in the Laboratory for Solid State Physics at ETH Zurich found evidence that bilayer graphene quantum dots may host a promising new type of…
A study led by the University of Oxford has used the power of machine learning to overcome a key challenge affecting quantum devices. For the…
Solid-state qubits: Forget about being clean, embrace mess, says a new recipe for dense arrays of qubits with long lifetimes. New findings debunk previous wisdom…
What actually happens is much weirder, and may help us understand more about quantum mechanics. The quantum Cheshire cat effect draws its name from the…
Scientists have made a breakthrough in nanophotonics by developing a method to measure nanoscale light interaction, paving the way for advancements in quantum computing and…
A new study shows how quantum computing can be harnessed to discover new properties of polymer systems central to biology and material science. The advent…
Quantum computing is becoming more accessible for performing calculations. However, research indicates that there are inherent limitations, particularly related to the quality of the clock…
Advancements in quantum entanglement with calcium fluoride molecules pave the way for new developments in quantum computing and sensing, utilizing controlled Bell state creation. Quantum…
A team of Japanese researchers has discovered significant properties of non-Fock states (iNFS) in quantum technology, revealing their stability through multiple linear optics and paving…
Harvard’s breakthrough in quantum computing features a new logical quantum processor with 48 logical qubits, enabling large-scale algorithm execution on an error-corrected system. This development,…
Fabrication method could facilitate materials discovery. Harvard team led by Philip Kim innovates in high-temperature superconductors using cuprates. Developed the world’s first superconducting diode, advancing…
The method developed by the Harvard team to reduce errors addresses a significant obstacle in scaling up technology. Quantum computing technology, with its potential for…
Researchers have successfully demonstrated the identification and removal of “erasure” errors for the first time. Future quantum computers are expected to revolutionize problem-solving in various…
A groundbreaking study introduces advanced nanometric optomechanical cavities, paving the way for more efficient quantum networks and improving quantum computing and communication technologies. The ability…
At the microscopic level, window glass exhibits a curious blend of properties. Its atoms are disordered like a liquid, yet they possess the rigidity of…