OptoNet e.V.’s Post

[#whensciencemeetsart] Explore the beauty of the very small with #proteusQ. With the Image Gallery, we share some of the measurements done by Qnami’s Application Scientists in collaboration with researchers from all over the world. This collection shows how, with #proteusQ, users can: 🧲deeply understand magnetic phenomena at the nanoscale 🚀bring materials engineering to the next level 💚push the frontiers toward greener devices #enjoythejourney https://lnkd.in/en9qUT7h #scanningNVmagnetometry #quantumsensing #nanomagnetism #magnetism #magneticimaging #spintronics #artificialspinice #mram #multiferroics #antiferromagnets #nanomagnets #nanomaterials #nanotecnology #materialsengineering #devices #protesuQ #QuantileverMX #AppLab #science #art imec | University of Basel | Empa | Paul Scherrer Institut PSI | Centre national de la recherche scientifique | Thales | University of Montpellier | University of California, Berkeley | Imperial College London | Helmholtz-Zentrum Dresden-Rossendorf (HZDR) | University of California, Davis | OIST

#publication #science #results 🚨 Publication alert❗ The ELI - Extreme Light Infrastructure published interesting results in recent articles: ▶ Ultrarelativistic electron beams accelerated by terawatt scalable kHz laser - published in Physics of Plasmas by the ELI Beamlines Facility team. The publication shows the laser-driven acceleration of unprecedented, collimated (2 mrad divergence), and quasi-monoenergetic (25% energy spread) electron beams with energy up to 50 MeV at 1 kHz repetition rate:  https://lnkd.in/dzXshZHJ ▶ Systematic comparison of commercial devices for temporal characterization of few-cycle laser pulses in the 500-1000 nm spectral range - published in Optics Express by colleagues from the ELI ALPS Research Institute. The article compares multiple temporal pulse characterization techniques in three different pulse duration regimes: https://lnkd.in/dxVFYAY4 Well done, team! 👏👏👏

Researchers at Penn State have experimentally made light “feel” a magnetic field within a complex structure called a photonic crystal, made of silicon and glass. Unlike electrons, which respond to magnetic fields, uncharged light particles typically don’t. However, within this crystal, light spins in circles, forming discrete energy bands—similar to what we observe in electrons. This finding could lead to improved photonic technologies, including smaller lasers. The work was based on an earlier theoretical prediction by team members and was published in the journal Nature Photonics alongside another independent observation by researchers in the Netherlands. https://okt.to/721bZk

"High-frequency terahertz waves have great potential for a number of applications including next-generation medical imaging and communication. Researchers at Linköping University, Sweden, have shown, in a study published in the journal Advanced Science, that the transmission of terahertz light through an aerogel made of cellulose and a conducting polymer can be tuned. This is an important step to unlock more applications for terahertz waves. The terahertz range covers wavelengths that lie between microwaves and infrared light on the electromagnetic spectrum. It has a very high frequency. Thanks to this, many researchers believe that the terahertz range has great potential for use in space exploration, security technology and communication systems, among other things." #terahertz #aerogel

The #IMPRESS Consortium brings together a group of 19 partners, which include five of the largest and most important Research Infrastructures (RIs) in Europe. Meet the five RIs! CERIC-ERIC provides open access to top facilities for the advancement of science and industry in materials and nanotechnology research. Euro-BioImaging ERIC makes state-of-the-art imaging technologies and services available for life sciences research. ALBA Synchrotron is a synchrotron light facility with ten operational state-of-the-art beamlines and additional ones under construction. Synchrotron SOLEIL is a synchrotron, high-technology facility and service platform open to all scientific and industrial communities. ELI - Extreme Light Infrastructure is the world’s largest and most advanced collection of high-power lasers. #HorizonEU #HorizonEurope #TEM #TransmissionElectronMicroscopy #microscopes #electronmicroscopy #research #innovation

Check out how Euro-BioImaging as a leading #researchinfrastructure in the fields of #biological and #biomedical #imaging will contribute to realizing the goals and anticipated outcomes of e-impress project.

Stop by our booth at #MRS2024 and learn more about how the #photonR2R can help accelerate your research efforts.

🚀 Join Our Groundbreaking Research Initiative! 🌌 Skywise.ai is thrilled to announce an ambitious research project focused on enhancing the Casimir effect through advanced nanotechnology and materials science to stabilize wormholes without the need for exotic matter. We are seeking collaboration with leading researchers, institutions, and industry partners to push the boundaries of theoretical and experimental physics, space exploration, and energy systems. 🔍 Project Overview: Our goal is to develop and prototype advanced materials that significantly enhance the Casimir effect. By leveraging custom-engineered metamaterials, graphene-based composites, nanoparticle arrays, nanostructured surfaces, quantum dots, nanowires, ultra-thin dielectric films, hybrid nanocomposites, and tunable materials, we aim to create a robust foundation for wormhole stabilization. These efforts could pave the way for transformative applications in space travel and energy manipulation. 🔬 Areas of Collaboration: Nanotechnology and Materials Science: Design and fabricate advanced nanostructures with tailored electromagnetic properties. Theoretical and Experimental Physics: Develop and validate theoretical models and conduct high-precision experiments. High-Performance Computing: Simulate and optimize material properties using advanced computational tools. Educational and Public Engagement: Create interdisciplinary educational programs and engage with the public through outreach initiatives. 🌟 Benefits of Collaboration: => Access to cutting-edge AI models and research facilities. => Joint funding opportunities. => Interdisciplinary expertise and collaboration. => Innovation and impact on future space exploration, energy, and beyond. 📢 How to Join: If you are interested in collaborating with us on this groundbreaking project, please reach out with a brief introduction of how you can contribute to the project. Expect a prompt reply to serious inquiries. Contact us at: 📧 chris@skywise.ai 🏢 www.skywise.ai 🗓️ Submission Deadline: July 4th, 2024 This project aligns with Skywise.ai's vision of pushing the boundaries of human knowledge and capabilities through cutting-edge quantum research and its applications in various domains. Skywise.ai is committed to advancing the frontiers of science and technology through collaborative research. Let's work together to achieve groundbreaking advancements and transform our understanding of the universe! #Research #Collaboration #Nanotechnology #Physics #SpaceExploration #EnergySystems #SkywiseAI #MEQ

Introducing Prof. Haim Suchowski, which will be speaking at our upcoming roundtable: https://lnkd.in/ghmBn4Xu. Prof. Suchowski is an expert researcher in condensed matter physics, specializing in ultrafast dynamics, plasmonic nanostructures, and 2D materials. His remarkable achievements include observing ultrafast exciton-polaritons in 2D materials and introducing adiabatic frequency conversion, overcoming bandwidth-efficiency challenges in nonlinear optics. Prof. Suchowski is also a pioneer in applying deep learning to nanophotonics and has developed innovative schemes for geometrical quantum control. He will be presenting at our fascinating virtual roundtable: "Revealing the Potential of Metasurfaces Applications" where he will discuss extensively his latest research and technologies in the field. Don't miss this opportunity - limited spots available. Register now: https://lnkd.in/ghmBn4Xu #roundtable #metasurfaces #innovation #research

🚀 Join Our Groundbreaking Research Initiative! 🌌 Skywise.ai is thrilled to announce an ambitious research project focused on enhancing the Casimir effect through advanced nanotechnology and materials science to stabilize wormholes without the need for exotic matter. We are seeking collaboration with leading researchers, institutions, and industry partners to push the boundaries of theoretical and experimental physics, space exploration, and energy systems. 🔍 Project Overview: Our goal is to develop and prototype advanced materials that significantly enhance the Casimir effect. By leveraging custom-engineered metamaterials, graphene-based composites, nanoparticle arrays, nanostructured surfaces, quantum dots, nanowires, ultra-thin dielectric films, hybrid nanocomposites, and tunable materials, we aim to create a robust foundation for wormhole stabilization. These efforts could pave the way for transformative applications in space travel and energy manipulation. 🔬 Areas of Collaboration: Nanotechnology and Materials Science: Design and fabricate advanced nanostructures with tailored electromagnetic properties. Theoretical and Experimental Physics: Develop and validate theoretical models and conduct high-precision experiments. High-Performance Computing: Simulate and optimize material properties using advanced computational tools. Educational and Public Engagement: Create interdisciplinary educational programs and engage with the public through outreach initiatives. 🌟 Benefits of Collaboration: => Access to cutting-edge AI models and research facilities. => Joint funding opportunities. => Interdisciplinary expertise and collaboration. => Innovation and impact on future space exploration, energy, and beyond. 📢 How to Join: If you are interested in collaborating with us on this groundbreaking project, please reach out with a brief introduction of how you can contribute to the project. Expect a prompt reply to serious inquiries. Contact us at: 📧 chris@skywise.ai 🏢 www.skywise.ai 🗓️ Submission Deadline: July 4th, 2024 This project aligns with Skywise.ai's vision of pushing the boundaries of human knowledge and capabilities through cutting-edge quantum research and its applications in various domains. Skywise.ai is committed to advancing the frontiers of science and technology through collaborative research. Let's work together to achieve groundbreaking advancements and transform our understanding of the universe! #Research #Collaboration #Nanotechnology #Physics #SpaceExploration #EnergySystems #SkywiseAI #MEQ