New technical papers recently added to Semiconductor Engineering’s library. https://lnkd.in/gwg5EMVC #semiconductor #interconnects #plasmaetch #IRdrop #SiC #NVM #quantum #photonics imecKU Leuven University of Maryland IBM Arkema Intel Corporation Lam Research UCLA National Tsing Hua University, National Taiwan University MediaTek University of Cambridge, University of Warwick, Chongqing University SpaceX Ruhr University Bochum of University of Duisburg-Essen Niels Bohr Institute, University of Copenhagen, University of Bristol, Aalto University Jean-Philippe Soulié Kiroubanand SANKARAN Benoit Van Troeye Gottlieb Oehrlein, Robert Bruce Keren Kanarik Ameer Janabi Luke Shillaber Felix Staudigl, Dr.-Ing. Jan Philipp Thoma Christian Niesler, Lingyun Y., Martin Trapp, Jelin Leslin Edward Deacon
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A team of Canadian, Japanese, Polish and German physicists has shown that electrons can flow through minute semiconductors with no scattering, leading to observable quantum electrical effects. These 1-dimensional channels are considered the building blocks for realizing quantum dots in these newly discovered materials and may provide clues on how to exploit their exotic properties. Quantum physicists from our Security and Disruptive Technologies and the Advanced Electronics and Photonics research centres and their international colleagues published their findings in the new Nature publication, npJ 2D Materials and Applications. Read: https://ow.ly/rTVr50PsMoX #NRCChallengeQuantumSensors #NRCChallengeRuralConnect #Quantum #Semiconductors #NationalQuantumStrategy
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In a recent work published in Nature Communications (https://lnkd.in/gT47qX6J) we demonstrated site-controlled coupled cavity arrays in silicon photonics for potential applications in Hamiltonian Engineering. Here is a nice press release on this: https://lnkd.in/gdPjXijd We are still far from quantum, but this is a necessary step towards photonic quantum simulation.
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Optica Quantum [#OPG_OpticaQ] research demonstrates a semiconductor quantum dot in a cavity via the SUPER scheme, which overcomes a significant hurdle in generating perfectly entangled photons: https://ow.ly/rCYj50Qxb8c By using two red-detuned laser pulses applied to a quantum dot in a cavity, the authors conclude that quantum dots are ready to be used as entangled photon pair sources in applications requiring high degrees of entanglement up to temperatures of approximately 80 K. Written by: Thomas K. Bracht, Moritz Cygorek, Tim Seidelmann, Vollrath Martin Axt, and Doris E. Reiter Universität Münster Technische Universität Dortmund Heriot-Watt University #Quantum #QuantumDots #QuantumPhysics
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"One trend is the chiplet, a tiny integrated circuit that contains a well-defined subset of functionality. Another growing sector is sustainability, where electronics and photonics are designed from the outset to be recyclable and power-efficient." Henning Schröder, Group Manager of Optical Interconnection Technologies at Fraunhofer IZM, discusses his career path and how he envisions the future of integrated photonics with Ivan Nikitski, PhD. 📰 Read the full interview in Novus Light Technologies Today https://lnkd.in/dnczm5jK Henning's group is responsible for the development of innovative packages for components and systems in microelectronics, optics, and microsystems technology. If you want to discuss these topics in person with Henning Schröder, don't miss the EPIC Meeting on Integrated Photonics at Fraunhofer IZM, which will be held in Berlin on July 4th and 5th #photonics #integratedphotonics #microelectronics #optics #packaging #sustainabledevelopment
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📌🌉🗣️ Don't miss our talk "Combining low loss SiN photonics with integration of active components" at #PhotonicsWest 2024 by Michael Geiselmann 📅Tuesday 30th January 🕒 3:20PM (PST) 📍Moscone Center, Room 204 (Level 2 South) and know more about the advantages of low loss silicon nitride photonic integrated circuits for applications such as #quantum optics, optical computing and #telecommunication, and the progress on integration of active materials to the low loss platform such as InP and LNOI. 👉https://lnkd.in/e4Ay4V6k #photonics #nanotechnology #letsPICit SPIE, the international society for optics and photonics
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📚 New technical papers added to Semiconductor Engineering’s library this week! Explore diverse topics like scalable accelerator design for distributed High Bandwidth Memory FPGAs, deep learning for materials discovery, processor testing algorithms, photonic integrated circuits, and quantum control in diamond-membrane structures. 🗝These papers reflect collaborative efforts by global universities and research institutions, showcasing an interdisciplinary approach to technological advancement. 💡Read more and learn more at Semiconductor Engineering. ______________________________ #TechWonders #DigitalFuture #infosec #cybersecurity #hardwaresecurity #dataprotection #semiconductor #chip #chipsecurity #followus #aiethics #TechTalk #linkedin #machinelearning #genai #TechHeat #GadgetInsights @wcpgw
New technical papers added to Semiconductor Engineering’s library this week. https://lnkd.in/gEwvEJza #semiconductor #hardwareSecurity #photonics #ferroelectric #quantum #diamond #FPGA #HBM UCLA Neha Prakriya Yuze Chi, Suhail Basalama, Linghao Song, Google DeepMind Google Research Amil Merchant Simon Batzner Samuel Schoenholz Texas A&M University Technische Universität Darmstadt Vasudev Gohil, Rahul Kande University of Rochester Tyler Howard Icel Sukovaty University of Sydney The Australian National University Matthew Garrett Yang Liu Moritz Merklein Rice University Massachusetts Institute of Technology The University of Texas at Arlington Penn State University Galio Guo Yimo Han Nannan Mao University of Chicago University of Cambridge Argonne National Laboratory Xinghan G., Alexander Stramma, William G. Roth Delft University of Technology University of Arizona Empa Berkeley Lab Zafer Mutlu
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𝗖𝗼𝗻𝘁𝗿𝗼𝗹𝗹𝗲𝗱 𝗰𝗼𝘂𝗽𝗹𝗶𝗻𝗴 𝗼𝗳 𝗾𝘂𝗮𝗻𝘁𝘂𝗺 𝗲𝗺𝗶𝘁𝘁𝗲𝗿𝘀 𝘁𝗼 𝗵𝗶𝗴𝗵-𝗶𝗻𝗱𝗲𝘅 𝗱𝗶𝗲𝗹𝗲𝗰𝘁𝗿𝗶𝗰 𝗻𝗮𝗻𝗼𝗮𝗻𝘁𝗲𝗻𝗻𝗮𝘀 Researchers in CEMES, in collaboration with LPCNO, LAAS and CEA-Leti, have used #AFM nanoxerography for large-scale positioning of #quantum nanoemitters in the near field of high-index silicon #nanoantennas. They demonstrate the increase of the nanosource brightness as a function of the resonances of the nanoantennas. This collaborative work opens the way to new planar architectures of arrays of efficient single photon sources for quantum technologies. 𝗣𝘂𝗯𝗹𝗶𝗰𝗮𝘁𝗶𝗼𝗻 in 𝘕𝘢𝘯𝘰𝘴𝘤𝘢𝘭𝘦 https://lnkd.in/dUJ8E8Wx 𝗖𝗼𝗻𝘁��𝗰𝘁: Aurélien Cuche, aurelien.cuche[at]cemes.fr ���🏾 https://lnkd.in/ecDMq_ay
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#Telecom In(Ga)As #quantum dots are a lot of fun. In particular, when you can have them on #silicon for integrated #photonics! Check out their growth on a wafer-bonded template on our recent publication: https://lnkd.in/etjR7Vg8 Thanks to our cooperation partners at Twenty-One Semiconductors and Institut für Funktionelle Nanosysteme, Ulm University
Growth of telecom C-band In(Ga)As quantum dots for silicon quantum photonics
iopscience.iop.org
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Muquans is now the #Quantum #Sensors division of Exail. 👉 For updates about Exail developments in quantum technologies, you can now follow the "Exail - Photonics" LinkedIn page.
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🚀 Take a quantum leap in 2024 with SPINUS! 🌐 The Horizon-funded SPINUS Project has officially started in Freiburg, Germany, on January 22-23. The project is led by Fraunhofer IAF and involves 11 organizations at the forefront of quantum advancement in Europe. 🔍 SPINUS in numbers: 48 months 12 organisations 7 Work Packages ⭕ Holistic approach: Material design, control techniques, readout technology, and tailored quantum algorithms. Leveraging Nitrogen Vacancy (NV) Centers in diamond and silicon carbide for scalable solid-state quantum computing. 🔬 Technical focus: Quantum simulation beyond 50 quantum units with 3D nuclear-spin, 3D electron-spin, and 2D nuclear-spin simulators. Elevating spin-based quantum computing beyond 10 qubits. 💡 Innovation highlights: Development of platforms enabling universal quantum computation based on two-qubit gate operations. Emphasis on improving control and readout methods for enhanced performance. 🤝 Collaboration: The project will engage top research and industry organisations. We are pleased to have on board: Fraunhofer IAF Ulm University DTU - Technical University of Denmark University of Stuttgart Forschungszentrum Jülich UHasselt Linköping University Delft University of Technology Wigner Research Center Fondazione Bruno Kessler - FBK Quantum Brilliance AMIRES 👁️🗨️ Stay tuned for SPINUS updates! #horizoneurope #QuantumComputing #SPINUSProject #Innovation #TechnologyAdvancement #ResearchandDevelopment
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