Scientific Breakthroughs Spark a Quantum Leap Quantum Internet Node: In a breakthrough for quantum communication, researchers at the University of Innsbruck demonstrated a scalable quantum network node that connects trapped-ion qubits with photons sciencedaily.com. Using a string of calcium ions as qubits, the team moved each ion into an optical cavity and triggered it with…
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USC researchers demonstrated that a neglected quasiparticle dubbed ‘neglecton’ added to Ising anyons enables universal topological quantum computing, published in Nature Communications. University of Sydney researchers realized a universal logical gate set for GKP qubits encoded in a single trapped ytterbium ion, effectively encoding two logical qubits. Chalmers University (Sweden) and Aalto University (Finland) unveiled…
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Breakthroughs in Quantum Science & Physics Quantum Computing Developments (Hardware & Software) Government & Military Quantum Initiatives Business & Investment Updates in Quantum Tech Expert Perspectives and Quotes Despite the rapid progress, leaders in the field balance excitement with realism. Some breakthroughs are still limited in practice – for instance, a recent quantum chemistry experiment…
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IBM unveiled Condor in 2023 as the first quantum processor with 1,121 superconducting qubits, with a roadmap to over 4,000 qubits by 2025. Google released the Willow superconducting chip with 105 qubits in 2024, where adding qubits produced an exponential reduction in the error rate and crossed the fault-tolerance threshold for quantum error correction. IonQ’s…
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Fujitsu announced R&D on a superconducting quantum computer with over 10,000 physical qubits, targeting completion in fiscal 2030, using its STAR fault-tolerant architecture to reach 250 logical qubits by 2030 and 1,000 logical qubits by 2035 as part of a Japan-backed industrialization effort. IonQ and Oak Ridge National Laboratory demonstrated a quantum-enhanced power-grid optimization using…
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Fujitsu announced it has begun developing a superconducting quantum computer with over 10,000 physical qubits, aiming for completion in fiscal 2030, and a STAR fault-tolerant architecture to reach 250 logical qubits by 2030 and 1,000 by 2035. IonQ and Oak Ridge National Laboratory demonstrated a hybrid quantum-classical approach to a Unit Commitment power-grid optimization using…
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Fujitsu announced it has begun developing a superconducting quantum computer exceeding 10,000 qubits, targeted for completion in 2030, using a new STAR early fault-tolerant architecture with 250 logical qubits as part of a Japanese government-backed project to industrialize quantum technology. IonQ and Oak Ridge National Laboratory demonstrated a quantum-classical solution for power grid optimization by…
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Fujitsu unveiled plans to build a superconducting quantum computer with over 10,000 qubits by fiscal 2030 in Japan, including a target of 250 logical qubits by 2030 and 1,000 logical qubits by 2035 under the STAR architecture. IonQ and Oak Ridge National Laboratory demonstrated a hybrid quantum-classical grid-optimization solution using IonQ’s 36-qubit Forte system to…
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Corporate and Industry Announcements Academic Research Breakthroughs and Publications Government Policy and Regulatory Updates Expert Commentary and Analysis Sources: Official press releases, news articles and expert blogs from July 31 – August 1, 2025, including IonQ ionq.com ionq.com, Fujitsu global.fujitsu global.fujitsu, Ainvest ainvest.com, TS2 Space News ts2.tech, Science News/Science Magazine reports, The Quantum Insider thequantuminsider.com…
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The first quantum computer in space is now operational in Earth orbit, launched on June 23 as a compact photonic device about 3 liters in volume that consumes roughly 10 watts, led by Philip Walther of the University of Vienna. On July 30, D-Wave Quantum unveiled a plan to scale to 100,000 qubits through advanced…
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