World of Quantum

🍭 Light and Glucose: Novel Method for Quantum Control 💎 Harnessing the power of quantum mechanics: Researchers have found a surprising way by simply coating a metasurface with a thin layer of glucose. By combining light and glucose in a specific way, the scientists were able to create hybrid quantum states that exhibit unique properties. These states could potentially be used to develop new types of materials with enhanced properties, such as improved conductivity or optical transparency. This innovative technique, as a significant step forward in the understanding of quantum systems and their potential applications, could lead to new possibilities for quantum technology, materials science, and medicine. https://lnkd.in/dn6PvswE University of Ottawa Max Planck Institute for the Science of Light FAU Erlangen-Nürnberg Iridian Spectral Technologies University of Rochester Ahmed Jaber Ali Maleki Yongbao Xin Brian Sullivan Ksenia D. Robert Boyd Claudiu Genes Jean-Michel Menard #QuantumPhysics #chemistry #optics [Image: University of Ottawa - From left (clockwise): Professor Jean-Michel Ménard (uOttawa), Ahmed Jaber (first author, uOttawa) & Dr. Claudiu Genes (Max Planck Institute for the Science of Light).]

✨ A Quantum World on a Silicon Chip! 🌐 Quantum physics researchers have developed an innovative platform to probe and control qubits in silicon, bringing us one step closer to a quantum internet. 🔌 Using a simple electric diode, they manipulate quantum defects—imperfections that could store and send quantum info over telecommunications networks. These defects, known as G-centers, emit photons in wavelengths crucial for quantum networking. 📡 Exciting discovery? ✅ Future quantum tech? 💎 The World of QUANTUM 2025 will show the latest innovations: from June 24-27 in Munich. Be there! https://lnkd.in/dXFT_4E3 Harvard John A. Paulson School of Engineering and Applied Sciences Harvard University Amazon Web Services (AWS) Aaron Day Jonathan Dietz Alex Raun Denis Sukachev Mihir Bhaskar Evelyn Hu #QuantumTechnology #QuantumTech #QuantumInternet #QuantumEngineering #physics #photonics [Image: Second Bay Studios/ Harvard SEAS - The device uses a simple electric diode to manipulate qubits inside a commercial silicon wafer.]

Quantum Leap to More Powerful Computers: New Error Correction Method 🧑🏻💻 💯 Major breakthrough in quantum computing: The novel innovative system overcomes the trade-off between error correction and complex operations, paving the way for more powerful and reliable quantum computers. Key takeaways: 📊 Overcoming the trade-off: The new system balances error correction and complex operations. ✅ Harnessing the power of continuous-variable quantum computing: This approach offers a larger number of quantum states, improving error resilience. ⚡️ High-speed quantum operations: The system enables rapid and precise control of quantum states. These research results bring the realization of quantum computers closer, with the potential to revolutionize various industries, from medicine to materials science. https://lnkd.in/d5y93Hxb Chalmers University of Technology Universität Stuttgart Axel Martin Eriksson Théo Sépulcre Mikael Kervinen Timo Hillmann Marina Kudra Yong Lu Maryam Khanahmadi Jiaying (Claire) Yang Claudia Castillo-Moreno Per Delsing Simone Gasparinetti #quantumcomputing #QuantumInformation #QuantumOptics #qubits [Image: Timo Hillmann/ Chalmers University of Technology - The circuit diagram to the left illustrates how the Chalmers researcher team was able to turn on and off different operations by sending microwave pulses (wiggly arrow) to the control system embedded in the oscillator. The researchers used the system to generate a so-called cubic phase state which is a quantum resource for quantum error correction. The blue areas to the right are so called Wigner negative regions - a clear signature of the quantum properties of the state.]

⬆️ Navigating GPS-Independent Future: Novel Quantum-Based System 🧭 Latest research on cold-atom quantum inertial sensors could significantly improve military navigation systems. By mitigating scattered light issues, these sensors offer unparalleled precision and reliability, even in GPS-denied environments. 🗺️ How does this technology work? A beam of atoms, cooled to near absolute zero, being manipulated to measure acceleration and rotation, known as atom interferometry, offers unprecedented precision and reliability, far surpassing traditional navigation systems. Why is this important? In an era where GPS can be easily jammed or spoofed, having a backup navigation system is crucial. Quantum sensors are unaffected by external interference, ensuring accurate positioning even in the most challenging environments. What are the potential applications? The possibilities are various - from submarines navigating beneath the ice to aircraft flying in GPS-denied zones. https://lnkd.in/dfZHnXjA U.S. Naval Research Laboratory Adam Black Mark Bashkansky Charles Fancher Jonathan Kwolek #QuantumTechnology #QuantumSensing [Image: Laser Focus World - Jonathan Kwolek places a light-delivery system carefully around a custom vacuum chamber to align the optics within the custom light-delivery system to optimize the atomic beam in the NRL Atom Interferometry Lab.]

🏁 𝙂𝙚𝙩 𝙍𝙚𝙖𝙙𝙮 𝙩𝙤 𝘽𝙚 𝙌𝙪𝙖𝙣𝙩𝙪𝙢𝙞𝙯𝙚𝙙 𝙞𝙣 2025! 🚀 The future is bright, and it's quantum! The United Nations declared 2025 as the 💎 International Year of Quantum Science and Technology 💎 (IYQ). Get ready for mind-blowing advancements that will revolutionize everything, like from medicine to AI. 𝗪𝗵𝘆 𝗤𝘂𝗮𝗻𝘁𝘂𝗺? Quantum technology has the potential to change the world! Imagine groundbreaking new materials, groundbreaking medical treatments, and unbreakable cryptography. 𝗜𝗺𝗺𝗲𝗿𝘀𝗲 𝗬𝗼𝘂𝗿𝘀𝗲𝗹𝗳 𝗶𝗻 𝘁𝗵𝗲 𝗤𝘂𝗮𝗻𝘁𝘂𝗺 𝗥𝗲𝘃𝗼𝗹𝘂𝘁𝗶𝗼𝗻! Join us at #WorldOfQuantum 2025 in Munich from June 24-27. This international trade fair will showcase the latest advancements in quantum technology and its impact on our future. ⚡️ Explore the limitless possibilities of quantum and be a part of the future technology! Learn more: World of Quantum 2025: https://lnkd.in/dsTqdhZX UN International Year of Quantum Science and Technology: https://lnkd.in/grNDKzVr #IYQ2025 #QuantumScience #QuantumTechnology #QuantumComputing

❇️ Quantum Sensing: Improved Image Quality For Medical Diagnostics 🩻 Advancement in medical technology: A young researcher has successfully developed a sensor capable of detecting errors in MRI scans using laser light and gas. This innovative technology holds immense potential to improve the accuracy, efficiency, and affordability of MRI diagnostics. This could lead to better, cheaper, and faster diagnoses. The newly developed sensor precisely measures and maps changes in the magnetic field, allowing for real-time corrections and enhanced image clarity. One of the most significant implications is the possibility of reducing scanning time. Spiral sequences, a faster scanning method that is currently impractical due to magnetic field instability, could become a viable option. Furthermore, the sensor's ability to improve image quality without increasing scanning time or costs opens up new possibilities for research and clinical applications. https://lnkd.in/dK_wGK-G Niels Bohr Institute, University of Copenhagen Københavns Universitet - University of Copenhagen Danish Research Centre for Magnetic Resonance (DRCMR) Amager og Hvidovre Hospital Hans Stærkind Eugene Polzik Eugene Polzik Vincent Boer Esben Thade Petersen #lasertech #lasertechnology #sensors #QuantumSensing #healthcare #medicaltechnology #medicine #analysis [Image: University of Copenhagen - Hans Stærkind is the primary force behind both theory and prototype.]

Quantum Physics Takes a Spin: Earth's Rotation Measured with Entangled Photons 📐🌍 The power of quantum technology on a massive scale: It now makes it possible to measure Earth's rotation with unprecedented precision. By using entangled photons in a giant optical fiber interferometer, researchers were able to detect the subtle effects of Earth's spin. This groundbreaking experiment could pave the way for even more accurate measurements and a deeper understanding of the universe. https://lnkd.in/dg3mJ-x5 VCQ Vienna Center for Quantum Science and Technology Universität Wien Haocun Yu Teodor Strömberg Philip Walther #quantumphysics #physics #photonics [Image # 1: Dott. mag. Raffaele Silvestri/ University of Vienna - Sagnac interferometer built with 2-kilometers of optical fibers wrapped around 1.4 meter sided square aluminum frame. | # 2 Marco Di Vita - The experiment was pictured drawing a fiber Sagnac interferometric scheme inside a magnifying inset starting from a local position (Vienna, Austria) of the rotating Earth. Two indistinguishable photons are incident on a beam splitter cube, entanglement between them is created, and then they are coupled in the fiber interferometer.]

💥💡The World of Quantum`s Industry Expert Committee Meeting took place today. We are all very excited and looking forward to the World of Quantum next year from June 24 to 27! The input and exchange today was therefore particularly valuable for us. 🌌    🙏 Many thanks to all participants: Juergen Stuhler Peter Soldan Sven Breitung Sebastian Luber Philipp Chung-On Ranitzsch Thierry Botter Nicola Goerke-Schwindt Dr. Heike Riel  and of Messe München: Katja Stolle Anke Odouli Ilana Faustmann   #WorldOfQuantum #QuantumScience #QuantumTechnology #QuantumComputing 

Quantum Computing: A Game-Changer for Weather Forecasting ⛈ ☀️ A groundbreaking study has leveraged the power of quantum computing to solve inaccurate weather prediction. ☔️ By developing a novel quantum algorithm, researchers have significantly reduced the computational cost of data assimilation, a critical step in creating accurate weather forecasts. 🌈💯 This innovative approach has the potential to improve the understanding of complex weather patterns and lead to more accurate predictions, ultimately helping to better prepare for and mitigate the impacts of extreme weather events. 🌊🌪 ––What are your thoughts on the future of quantum computing and its impact on daily live? Let's discuss: here and at #WorldofQuantum 2025, from June 24-27 in Munich! https://lnkd.in/ddPAGgy8 Chiba University #QuantumComputing #QuantumData #WeatherPrediction #ClimateScience [Image: Chiba University - Prof. Dr. Shunji Kotsuki, Institute for Advanced Academic Research (IAAR)/ Center for Environmental Remote Sensing.]

The Future of Displays and Sensors: Quantum Dots and Metasurfaces Redefine Light, Revolutionize Optics 🔬💡 Imagine a world where light can be precisely controlled, manipulated, and enhanced. Scientists are making this a reality by combining quantum dots and metasurfaces. What does this mean? 📱 Brighter Displays: Expect more vibrant and energy-efficient screens. 🌡 Advanced Sensors: More sensitive devices for medical and environmental applications. 💎 Quantum Computing Breakthroughs: Paving the way for revolutionary computing power. https://lnkd.in/dNfH-5bu Pohang University of Science and Technology University of Melbourne Chunghwan Jung Jaehyuck Jang Sejeong Kim Junsuk Rho #quantumdots #nanotechnology #nanotech #optics [Images: POSTECH - Professor Junsuk Rho's team has developed printable, highly efficient light-emitting metasurfaces.]