𝙸𝚗𝚗𝚘𝚟𝚊𝚝𝚒𝚘𝚗 𝙳𝚒𝚛𝚎𝚌𝚝𝚘𝚛 (𝙲𝙸𝙽𝙾) 𝚊𝚝 𝙵𝙸𝙳𝙴𝚂𝙾𝙻 𝙸𝙲𝚃 𝚃𝚎𝚌𝚑𝚗𝚘𝚕𝚘𝚐𝚒𝚌𝚊𝚕 𝙲𝚎𝚗𝚝𝚎𝚛. 𝙿𝚑𝙳 𝚒𝚗 𝙲𝚘𝚖𝚙𝚞𝚝𝚎𝚛 𝚂𝚌𝚒𝚎𝚗𝚌𝚎 (𝙱𝚕𝚘𝚌𝚔𝚌𝚑𝚊𝚒𝚗)
Researchers at EPFL have combined the power of six mechanical oscillators into one collective state. This is a big breakthrough as it will enable the development of ultra-precise sensors and other components crucial for large-scale quantum systems. #QuantumComputing https://lnkd.in/dvTGqhHB
Exciting advances in quantum sensing! Please check my latest article, where I dive into the transformative potential of quantum sensors and how they’re driving innovation across a range of sectors. Let’s connect and discuss how quantum technologies are shaping the future! #QuantumTechnology #QuantumSensors #Innovation #TechTrends #VTTResearch
Unlocking Precision with Quantum Sensors! We are pleased to share an article by Pekka Ikonen, Microelectronics and Quantum Technology Lead at VTT. In this piece, Pekka dives into the transformative potential of quantum sensors, highlighting how they’re driving unprecedented precision across various industries, from healthcare and navigation to climate monitoring and energy. The article covers: ✅ The science that enables quantum sensors to deliver extreme measurement precision. ✅ Practical applications where quantum sensing is already making an impact. ✅ The future possibilities and innovations that quantum technology can unlock. For professionals in tech, healthcare, environmental science, and beyond, Pekka’s article offers key insights into the ways quantum sensing is reshaping our approach to complex challenges. 👉 Explore the full article and discover the future of precision with quantum sensors: https://lnkd.in/dKhYU7SZ Join us as we move forward into the next era of innovation! #QuantumSensors #Innovation #QuantumTechnology
Executive Vice President, Digital technologies at VTT | Innovation & deeptech | Board professional
Pekka Ikonen dives into the transformative potential of quantum sensors, highlighting how they’re driving unprecedented precision across various industries, from 𝐡𝐞𝐚𝐥𝐭𝐡𝐜𝐚𝐫𝐞 and 𝐧𝐚𝐯𝐢𝐠𝐚𝐭𝐢𝐨𝐧 to 𝐜𝐥𝐢𝐦𝐚𝐭𝐞 𝐦𝐨𝐧𝐢𝐭𝐨𝐫𝐢𝐧𝐠 and 𝐞𝐧𝐞𝐫𝐠𝐲 and 𝐝𝐞𝐟𝐞𝐧𝐜𝐞
Unlocking Precision with Quantum Sensors! We are pleased to share an article by Pekka Ikonen, Microelectronics and Quantum Technology Lead at VTT. In this piece, Pekka dives into the transformative potential of quantum sensors, highlighting how they’re driving unprecedented precision across various industries, from healthcare and navigation to climate monitoring and energy. The article covers: ✅ The science that enables quantum sensors to deliver extreme measurement precision. ✅ Practical applications where quantum sensing is already making an impact. ✅ The future possibilities and innovations that quantum technology can unlock. For professionals in tech, healthcare, environmental science, and beyond, Pekka’s article offers key insights into the ways quantum sensing is reshaping our approach to complex challenges. 👉 Explore the full article and discover the future of precision with quantum sensors: https://lnkd.in/dKhYU7SZ Join us as we move forward into the next era of innovation! #QuantumSensors #Innovation #QuantumTechnology
Trust me, You must check out this excellent article about quantum sensors and VTT quantum sensing technology offering written by Pekka Ikonen from VTT!
Unlocking Precision with Quantum Sensors! We are pleased to share an article by Pekka Ikonen, Microelectronics and Quantum Technology Lead at VTT. In this piece, Pekka dives into the transformative potential of quantum sensors, highlighting how they’re driving unprecedented precision across various industries, from healthcare and navigation to climate monitoring and energy. The article covers: ✅ The science that enables quantum sensors to deliver extreme measurement precision. ✅ Practical applications where quantum sensing is already making an impact. ✅ The future possibilities and innovations that quantum technology can unlock. For professionals in tech, healthcare, environmental science, and beyond, Pekka’s article offers key insights into the ways quantum sensing is reshaping our approach to complex challenges. 👉 Explore the full article and discover the future of precision with quantum sensors: https://lnkd.in/dKhYU7SZ Join us as we move forward into the next era of innovation! #QuantumSensors #Innovation #QuantumTechnology
Unlocking Precision with Quantum Sensors! We are pleased to share an article by Pekka Ikonen, Microelectronics and Quantum Technology Lead at VTT. In this piece, Pekka dives into the transformative potential of quantum sensors, highlighting how they’re driving unprecedented precision across various industries, from healthcare and navigation to climate monitoring and energy. The article covers: ✅ The science that enables quantum sensors to deliver extreme measurement precision. ✅ Practical applications where quantum sensing is already making an impact. ✅ The future possibilities and innovations that quantum technology can unlock. For professionals in tech, healthcare, environmental science, and beyond, Pekka’s article offers key insights into the ways quantum sensing is reshaping our approach to complex challenges. 👉 Explore the full article and discover the future of precision with quantum sensors: https://lnkd.in/dKhYU7SZ Join us as we move forward into the next era of innovation! #QuantumSensors #Innovation #QuantumTechnology
Experienced IoT Consultant (SW, HW, Telecoms, Strategy), SensorNex Consulting. A guy with a real whiteboard, some ideas, and a pen... *** No LinkedIn marketing or sales solicitations please! ***
Zero Resistance Breakthrough: Meet the Quantum Sandwich Powering the Future. Researchers have developed a new “sandwich” structure material that exhibits the quantum anomalous Hall effect, enabling electrons to travel with almost no resistance at higher temperatures. This breakthrough could significantly enhance computing power while dramatically reducing energy consumption. The structure is based on a layered approach with bismuth telluride and manganese bismuth telluride, promising faster and more efficient future electronic devices - https://lnkd.in/gzWQ3uJP
#Innovation | 𝗠𝗮𝗰𝗿𝗼𝘀𝗰𝗼𝗽𝗶𝗰 𝗢𝘀𝗰𝗶𝗹𝗹𝗮𝘁𝗼𝗿𝘀 𝗠𝗼𝘃𝗲 𝗮𝘀 𝗢𝗻𝗲 𝗮𝘁 𝘁𝗵𝗲 𝗤𝘂𝗮𝗻𝘁𝘂𝗺 𝗟𝗲𝘃𝗲𝗹 | Scientists at EPFL have achieved a breakthrough by making six mechanical oscillators work together at the quantum level, marking an important advance in quantum technology. Using the sophisticated technique of sideband cooling, the team led by Mahdi Chegnizadeh reduced the energy levels of oscillators to their quantum ground state, allowing them to act as a single, unified entity rather than separate components. This precision work is significant as it has the potential to revolutionize industries with innovations such as ultra-sensitive sensors and components critical for quantum computing. 👉 Learn more >> https://lnkd.in/g4jRM_AF 👉 Original publication >> https://lnkd.in/gmpyaSjq 🇨🇭 Follow #ScienceSwitzerland for the latest news and emerging trends on Swiss science, technology, education and innovation >> swissinnovation.org Follow us >> Science-Switzerland #Science | #Education | #Research | #Innovation
🔌 I have recently come across information that scientists in #Germany have achieved a groundbreaking milestone in quantum communication by conducting the first intercity quantum key distribution (#QKD) experiment using quantum dots as single-photon sources. This experiment demonstrated secure communication over a nearly 80 km long optical fiber link between #Hannover and #Braunschweig. #Quantum key distribution leverages the principles of quantum mechanics to ensure secure data transmission, making it a crucial technology in the era of quantum computing, where traditional #encryption methods are becoming increasingly vulnerable. The use of semiconductor quantum dots, often referred to as “artificial atoms,” marks a significant advancement in the field. These quantum dots emit single photons, which are essential for QKD. This innovation has applications in the space industry and the so-called quantum internet. Kudos to the involved parties: Leibniz Universität Hannover and Physikalisch-Technische Bundesanstalt, PTB. 🖼 The image below was generated by #artificial #intelligence to capture your attention.
Founder of LinksGPT.com | Serial Entrepreneur | Cloud, Security, AI, Data, IoT, XR Specialist | Ecosystem-Innovation-Growth
🔬 Is Quantum Collective Behavior the Key to Revolutionary Advancements? Recent research from EPFL, led by Tobias Kippenberg, unveils a remarkable breakthrough in quantum collective behavior. Six macroscopic mechanical oscillators have been manipulated to function as a singular unit at the quantum level—something that could drastically change the landscape of quantum computing and sensing technologies. 🌍 Why Does This Matter? Macroscopic mechanical oscillators are integral in various technologies, including telecommunications and quartz watches. Until now, exploring their collective behaviors presented significant challenges due to the complexities in maintaining precise control over multiple oscillators. The EPFL team’s success in achieving a unified quantum state through sideband cooling is a game changer. 💡 What’s Next? This breakthrough has not only validated theoretical predictions about collective quantum behavior but has also opened avenues for developing innovative quantum technologies. Expect enhanced quantum sensors and multi-partite entanglement production, pivotal for next-gen quantum computing applications! 🤝 Engagement Opportunity: What are your thoughts on the implications of this research in your field? Share your insights below! Stay Ahead in Tech! Connect with me for cutting-edge insights and knowledge sharing! Want to make your URL shorter and more trackable? Try linksgpt.com #QuantumTechnology #BitIgniter #LinksGPT #Innovation #QuantumComputing Want to know more: https://lnkd.in/ez49_Fkb
Physicists have captured images of ultracold atoms flowing without resistance in an “edge state.” This phenomenon, where atoms move along a boundary effortlessly, could revolutionize energy and data transmission by enabling super-efficient, lossless systems. Imagine future devices where electrons glide seamlessly, reducing energy waste and enhancing performance. This discovery opens new avenues for quantum research and practical applications in technology.
We push the boundaries of quantum technology! 🦾🚀 At Fraunhofer ISIT, we're pushing the boundaries of quantum technology by developing cutting-edge #MEMS solutions for quantum computing and sensing. Leveraging our expertise in microtechnical processes at the 8" wafer level, we create innovative technologies like hermetically sealed #microactuators for #laser light manipulation, ultra-sensitive #sensors for detecting weak magnetic fields, and durable mechanical components essential for #quantum computing systems.📈🔝 💡 Our Innovations: 1. #PowderMEMS The comprehensive application of quantum technology hinges on the miniaturization and scaling of systems. Depending on the architecture, quantum computing with ion traps or quantum sensing with nitrogen-vacancy centers require precise local magnetic fields. Integrating durable permanent micromagnets with high accuracy on wafer level poses a great challenge for established manufacturing processes. Our PowderMEMS microfabrication technique presents a unique opportunity to produce such micromagnets directly in a silicon or glass wafer. This opens up completely new possibilities for bringing quantum technology to the wider society. 2. #MEMS Mirrors In collaboration with Johannes Gutenberg-Universität Mainz through our #KonneQt project, we utilize quasi-static MEMS mirrors to precisely scale the length of an optical cavity across all three spatial dimensions. This precise mirror adjustment not only enables the efficient connection of more qubits but also directs laser beams for capturing and positioning neutral atoms—a technique known as optical tweezers. This breakthrough significantly expands the research and application potential of quantum computing, opening up new frontiers in the field. #Fraunhofer #quantumcomputing #quantumsensing #innovation #MEMSapplications #MEMSmirrors #micromagnets
