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January 26, 2021 |
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Hyperchaos modelization of complex quantum systems |
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Researchers at Loughborough University have discovered an amazing feature of qubit behavior which would allow to simulate complex quantum systems without the need for enormous computing power. They found that… |
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January 26, 2021 |
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Generating and detecting Genuine Multipartite Entanglement (GME) |
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Generating and detecting Genuine Multipartite Entanglement (GME) of sizeable quantum states prepared on physical devices is an important benchmark for highlighting the progress of near-term quantum computers. A common approach… |
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January 26, 2021 |
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Connecting qubits with a topological waveguide |
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Researchers at California Institute of Technology have explored how topology can endow special properties to a photonic platform in which superconducting qubits are embedded in a waveguide. The researchers showed… |
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January 25, 2021 |
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Riverlane secures $20 million in Series A funding |
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Riverlane has raised $20m in Series A funding to build Deltaflow, its operating system for quantum computers. This new funding follows a £3.25 million seed round completed in June 2019.… |
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January 25, 2021 |
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Vote for the Quantum Personality of the Year 2020 |
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Paulina Mazurek (BEIT), Poland Itamar Sivan (Quantum Machines), Israël Ilyas Khan (Cambridge Quantum Computing – CQC), United Kingdom Daniel Twitchen (E6 – Element Six), United Kingdom John Levy (Seeqc), USA… |
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January 25, 2021 |
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New blueprint for more stable quantum computers |
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Swiss researchers at the Paul Scherrer Institute (PSI) have put forward a detailed plan of how faster and better defined qubits can be created. The central elements are magnetic atoms… |
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January 25, 2021 |
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Certified Quantum Random Numbers from untrusted light |
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A team of researchers from Germany, Russia and UK has designed and experimentally demonstrated an ultrafast optical Quantum Random Number Generator (QRNG) that uses a totally untrusted photonic source. While… |
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January 25, 2021 |
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Silicon quantum dots using CMOS technology |
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Solid-state quantum computers require classical electronics to control and readout individual qubits and to enable fast classical data processing. Integrating both subsystems at deep cryogenic temperatures, where solid- state quantum… |
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January 22, 2021 |
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German PlanQK develops AI on Quantum Computers |
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German Federal Ministry of the Economy has funded the €19m PlanQK project (Platform and Ecosystem for Quantum-Assisted Artificial Intelligence) in Quantum AI. The project has now 15 partners and 33 associated… |
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January 22, 2021 |
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Ultimate Precision: Scientists Reach Limit of Multi-Parameter Quantum Measurement With Zero Trade-Off |
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Chinese researchers showed that to achieve the highest precisions for multiple parameters at the same time requires the saturation of multiple Heisenberg uncertainty relations simultaneously. Real-life applications like magnetometry or… |
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January 21, 2021 |
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Pulsed laser with repetition rate of 57.8 GHz |
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The Korea Institute of Science and Technology (KIST) announced that the research team at the Center for Opto-Electronic Materials and Devices was able to generate laser pulses at a rate at least… |
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January 21, 2021 |
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France announces a 1.8 billion euros Quantum Plan |
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The French President has just announced that the french research centers, start-ups and industrial groups will have a budget of 1.8 billion euros over five years. France has now a… |
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January 21, 2021 |
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Do simulations represent the real world at the atomic scale? |
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A team of scientists at the U.S. Department of Energy’s (DOE) Argonne National Laboratory, the University of Chicago and the University of California, developed a groundbreaking validation protocol for simulations… |
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