China Hits New Quantum Computing Milestone 🇨🇳⚛️
China’s superconducting quantum processor Zuchongzhi 3.2 reached quantum error correction below the surface code threshold on a distance-7 surface code.
The team used an all-microwave leakage suppression architecture and achieved a key step toward more reliable quantum computing.
Their results appeared in the journal Physical Review Letters 📄
#China #QuantumComputing #ScienceNews #Technology
China’s superconducting quantum processor Zuchongzhi 3.2 reached quantum error correction below the surface code threshold on a distance-7 surface code.
The team used an all-microwave leakage suppression architecture and achieved a key step toward more reliable quantum computing.
Their results appeared in the journal Physical Review Letters 📄
#China #QuantumComputing #ScienceNews #Technology
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⚛️ 72 qubits in a Russian lab: are we closer to a quantum leap? 🧠
Scientists at Lomonosov Moscow State University say they’ve built and tested a 72‑qubit quantum computer using neutral rubidium atoms, crossing the 70+ qubit milestone again for Russia.
The team reports about 94% accuracy on two‑qubit operations and a new “three‑zone” setup designed to help scale toward more reliable, error-corrected quantum computing by 2030.
Where do you think quantum computing will impact everyday life first—medicine, finance, materials, or something else? 💬
#QuantumComputing #TechInnovation #ScienceNews #FutureTech
Source: TASS
Scientists at Lomonosov Moscow State University say they’ve built and tested a 72‑qubit quantum computer using neutral rubidium atoms, crossing the 70+ qubit milestone again for Russia.
The team reports about 94% accuracy on two‑qubit operations and a new “three‑zone” setup designed to help scale toward more reliable, error-corrected quantum computing by 2030.
Where do you think quantum computing will impact everyday life first—medicine, finance, materials, or something else? 💬
#QuantumComputing #TechInnovation #ScienceNews #FutureTech
Source: TASS
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