To achieve remarkable performances, quantum computing systems based on multiple qubits must attain high-fidelity entanglement between their underlying qubits. Past studies have shown that solid-state quantum platforms—quantum computing systems based on solid materials—are highly prone to errors, which can adversely impact the coherence between qubits and their overall performance.
source https://phys.org/news/2024-10-explores-physical-errors-qubit-processor.html
Tuesday, 15 October 2024
Related Posts
Global database reveals large gaps in our knowledge of four-footed animals
Alaska's top-heavy glaciers are approaching an irreversible tipping point
New experiment investigates light-induced Meissner effect in optically driven superconductor
Recovery of unique geological samples sheds light on formation of today's Antarctic ice sheet
No GPS, no problem: Researchers are making quantum sensing tools more compact and accurate to replace GPS
Study reveals rapid evolution and global spread of Pseudomonas aeruginosa
0 comments: