Argonne National Laboratory’s Post

Your Paper Makes SSRN (Elsevier's E-print Service) Top Ten List Top Ten Lists are updated on a daily basis. Click the following link(s) to view the Top Ten list for: https://lnkd.in/egJVbS4T Astrophysics, Cosmology & Gravitation eJournal Top Ten. Exploring Quantum-Corrected Thermodynamics and Observational Signatures of Nonlinear Electrodynamics Black Holes E. Sucu, İ. Sakallı, B. Pourhassan

Scientists are investigating the suppression of cosmic growth, a phenomenon that could reshape our understanding of the universe's expansion. What role do dark energy and matter play in this process? Dive into the research here: https://lnkd.in/eK87kDwJ #Cosmology #Astrophysics #DarkEnergy #ScientificResearch

I recently started reading a research paper on dark matter by Marco Cirelli, Alessandro Strumia, and Jure Zupan. Dark matter has not been fully proven to exist yet, and as published by CERN: "Researchers have been able to infer the existence of dark matter only from the gravitational effect it seems to have on visible matter. Dark matter seems to outweigh visible matter roughly six to one, making up about 27% of the universe." There is still a lot to discover about dark matter. However, if you're an enthusiast like me, I suggest reading this research. It's promising and accessible even for those who aren't physicists like me. Here is a link for interested ones, " https://lnkd.in/d66fFjcp ". I will share my summary about it a few months later, if the language is heavy for you, you can wait a few months to read my public(my) level summary 😄 #Physics #DarkMatter

Harvard Study Uses QDM To Reveal Mars May Have Been Habitable 4bn Years Ago The Quantum Diamond Microscope (QDM) is a powerful tool for revealing the unknown. Recently, a team at Harvard University used the QDM to provide new insights about Mars, including its habitability and magnetic properties. 🚀 >> https://lnkd.in/etnKNinh

Even the heaviest particles experience the usual quantum weirdness, new experiment shows | by techguru Chriet | Urk Tech Review One of the most surprising predictions of physics is entanglement, a phenomenon where objects can be some distance apart but still linked together. The best-known examples of entanglement involve tiny chunks of light (photons), and low energies. At the Large Hadron Collider in Geneva, the world's largest particle accelerator, an experiment called ATLAS has just found entanglement in pairs of socks: the heaviest particles known to CERN scientists. https://lnkd.in/eKx2zqNn Bertlmann's socks and the nature of reality | CERN server | John Bell, 1980 https://lnkd.in/e_qYr9bx Reinhold Bertlmann | Wikipedia https://lnkd.in/eBmwd3fS #quantum #physics #weirdnss #reality #entanglement #Bertlmann #socks #CERN #LHC #ATLAS #experiment

Breaking New Ground in Dark Matter Research! 🌌 Dark matter—a mysterious substance making up five-sixths of the universe's matter—has long fascinated scientists. Recent breakthroughs have reshaped our understanding of its fundamental properties. 📌 Key Update: The minimum mass of a dark particle is now revised to 2.3 × 10³² proton masses, an order-of-magnitude leap! 🔍 Research Highlights: Astronomers have analyzed the Leo II dwarf galaxy, using stellar movements to refine dark matter density profiles. Advanced computations have debunked older models, offering sharper insights into particle behavior. ⚛️ What Does This Mean? Dark matter's distribution may vary—uniformly spread or in lumps, altering its presence in localized areas. Quantum physics reveals that lighter particles behave as a fluid, while heavier ones could span 30 km between interactions! This milestone illustrates how modern science, driven by computational advancements, continues to decode the mysteries of our universe. Let’s celebrate the brilliance of human curiosity and technology! ✨ #DarkMatter #Astrophysics #Innovation #ScienceLeadership

“When astronomers map out the sky, they make that data available to the community. … So in that same sense, we want to make the materials universe visible to the community so that anyone can go in and explore the data.” — Nitin Samarth, Penn State Eberly College of Science 🔗 https://lnkd.in/gUVaxe-c As a researcher at Penn State, Samarth develops atomic states of matter for #quantum technologies, catalogs their features and makes the data available to all — continuing the tradition of community science for which astronomy is famous. As part of Q-NEXT, Samarth is helping grow the capabilities of Argonne National Laboratory's quantum foundry, whose recent establishment was one of Q-NEXT’s achievements. An expert in creating different types of crystals for hosting #qubits, Samarth advises other foundry researchers on promising avenues of exploration, advancing state-of-the-art quantum materials for real-world applications. His career is full of examples of how surprises can bring about useful innovations. Learn more about Nitin Samarth: https://lnkd.in/gUVaxe-c #quantumscience #quantuminformationscience #quantummaterials #quantumtechnology #quantumcareers

𝗕𝘂𝗶𝗹𝗱𝗶𝗻𝗴 𝗮 𝗕𝗲𝘁𝘁𝗲𝗿 𝗡𝗲𝘂𝘁𝗿𝗶𝗻𝗼 𝗧𝗿𝗮𝗽 A new laser calibration system will help researchers better understand signals coming from the elusive neutrino, aiding the quest to unlock the neutrino’s secrets about the universe. Read article: https://buff.ly/3WghYSt. #neutrino #physics #subatomic #subatomicparticles #science

In his Nature of Reality talk Nassim offers a poignant reminder that the Universe is constantly in motion; nothing is at rest! For our quotidian experience, this reminds us that the only constant is change; but for physics this has interesting technical implications because physicists will often arbitrarily define a system under examination to be "at rest", and thus we see things like references to the "rest-mass" of a particle. Nassim poses the simple question: "at rest relative to what?" Nassim and the International Space Federation research team have found that the rest-mass of a particle, like the proton, can be defined by the quantum vacuum energy density, which in a sense forms a universal reference scale. We thus see that a universe in motion is a universe with near infinite energy potential and the way all of the different reference frames of motion comes together give rise to the rich evolution and unfoldment of existence. #natureofreality #physics #science

Oak Ridge National Laboratory researchers devised a two-qubit controlled-NOT operation that marks a foundational step toward leveraging polarization-frequency resources in fiber networks for future quantum applications: https://bit.ly/4eQhgl1 Published in Optica Quantum [#OPG_OpticaQ], the study opens new avenues for manipulating hyperentanglement across crucial DoFs and can facilitate immediate applications such as single-copy entanglement distillation. Written by: Hsuan-Hao Lu, Joseph M. Lukens, Muneer Alshowkan, Brian T. Kirby, and Nicholas A. Peters #quantum #quantumscience #quantumphysics #photonics #physics