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#Berkeleylab Reel by @berkeleylab (verified account) - Scientists at Berkeley Lab are rewriting the rules of computing, chemistry, materials science, and more through the promise of quantum information sci
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@berkeleylab
Scientists at Berkeley Lab are rewriting the rules of computing, chemistry, materials science, and more through the promise of quantum information science. “If we can build a quantum computer with about 100 logical qubits and a fidelity of 10⁻⁷, we could deliver far more reliable results for high-energy physics, nuclear physics, and materials science, and achieve a real scientific advantage.” — Bert de Jong, Director, Quantum Systems Accelerator In this Science Power-Up episode, Bert explains how quantum computers, sensors, and networks could help tackle some of our most complex energy challenges. Working with hundreds of researchers across institutions, Berkeley Lab is pushing the limits of hardware and algorithms to help shape the future of quantum technologies. Learn more on quantum research at Berkeley Lab via link in bio.
#Berkeleylab Reel by @lbnlatap - Discover how our researchers used high-energy ion beams to create a chain of color-center qubits in diamond, promising advances in #quantum computing,
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@lbnlatap
Discover how our researchers used high-energy ion beams to create a chain of color-center qubits in diamond, promising advances in #quantum computing, a quantum internet, and sensing technologies to progress #fusion. @berkeleylab @energy https://atap.lbl.gov/news/color-center-qubits-could-illuminate-the-path-to-a-quantum-future/
#Berkeleylab Reel by @umichece - 🔬A closer look at Michigan's quantum testbed. By connecting labs across campus with optical fiber, Michigan engineers have created a platform that a
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@umichece
🔬A closer look at Michigan’s quantum testbed. By connecting labs across campus with optical fiber, Michigan engineers have created a platform that allows researchers to run real quantum experiments on real hardware, even from a distance. The goal is to make quantum research more accessible by removing some of the traditional barriers to entry. This infrastructure supports hands-on learning and opens the door to new discoveries. Work led by ECE Professor Zheshen Zhang continues to explore how connected quantum systems can operate at larger scales. Quantum research isn’t just theoretical. It’s being built and accessed right here. 〽️ #QuantumComputing #Engineering #GoBlue #QuantumPhysics
#Berkeleylab Reel by @rami.rice - Rice University researchers, led by Hanyu Zhu, have demonstrated record-long quantum vibrations in boron arsenide, where optical phonons can persist n
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@rami.rice
Rice University researchers, led by Hanyu Zhu, have demonstrated record-long quantum vibrations in boron arsenide, where optical phonons can persist nearly 10 times longer than in typical materials. 🦉 Published in American Physical Society Physical Review Letters, the study, explained by Graduate Student Sanjna Sukumaran, highlights a new pathway for controlling heat and information at the quantum level. 🎥 Video by: @georgeevidal
#Berkeleylab Reel by @qnextquantum - Who knew quantum research involved smashing things?🧪🔧💥 In today's reel, researcher Gregory Grant reveals one of the most unexpectedly satisfying p
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@qnextquantum
Who knew quantum research involved smashing things?🧪🔧💥 In today’s reel, researcher Gregory Grant reveals one of the most unexpectedly satisfying parts of his job — cracking open ampules to retrieve samples from the annealer! 💎 It’s part precision, part controlled destruction, and 100% cooler than you’d expect from a day in the lab. 🔬⚛️ #QuantumComputing #ScienceIsReal #LabLife #DayInTheLife #QuantumPhysics
#Berkeleylab Reel by @qnextquantum - Ever wonder what it actually feels like to do quantum research? ⚛️ For Xuntao Wu, a PhD student in Andrew Cleland's lab at @uchicago and Q-NEXT resea
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@qnextquantum
Ever wonder what it actually feels like to do quantum research? ⚛️ For Xuntao Wu, a PhD student in Andrew Cleland’s lab at @uchicago and Q-NEXT researcher, the defining moment was when he entangled two superconducting qubits and quantum went from a concept he studied to something he could actually see. That’s the kind of science happening right now at Q-NEXT. 🔬 Follow us for more behind-the-scenes looks at the quantum scientists pushing the field forward! 🚀 #QuantumComputing #UChicago #SciComm #ResearchLife #DayInTheLife
#Berkeleylab Reel by @fermilab (verified account) - The LHC is preparing to enter a new era ✨ @CERN's High-Luminosity LHC upgrade will increase the number of collisions by a factor of 10, opening the
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@fermilab
The LHC is preparing to enter a new era ✨ @CERN's High-Luminosity LHC upgrade will increase the number of collisions by a factor of 10, opening the door to unprecedented precision. And the CMS detector is leveling up right alongside it. Fermilab recently finished production of 150,000 scintillator tiles for the @CMSexperiment detector upgrade — and we couldn't be more proud of the role we're playing in the future of high-energy physics. #Fermilab #CERN #HiLumiLHC #LHCupgrade #ParticlePhysics
#Berkeleylab Reel by @thecreatorsecho - Breaking the Symmetry of Chemistry with Light What if the future of medicine didn't require a massive chemical footprint? 💡💊 Imagine synthesizing l
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@thecreatorsecho
Breaking the Symmetry of Chemistry with Light What if the future of medicine didn’t require a massive chemical footprint? 💡💊 Imagine synthesizing life-saving pharmaceuticals using the precision of structured light, eliminating toxic waste and the need for expensive physical catalysts. This isn't science fiction—it’s the next frontier of Multiphysics Engineering. For decades, computational science has faced a "scale gap." On one side, we have Maxwell’s equations governing macroscopic light waves (microns). On the other, we have Newton’s laws governing microscopic atoms (nanometers). These two worlds simply didn't speak the same language... until now. We are incredibly proud to share the latest breakthrough from The C4 Institute: a first-of-its-kind Multiphysics Simulation Framework that bridges this divide. 🚀 The Experiment: We modeled a 25µm water microdroplet—essentially a microscopic liquid lens—under bi-harmonic terahertz irradiation. Our framework revealed a phenomenon known as a Photonic Jet, where light is focused into an intense "hotspot" at the droplet's shadow-side boundary. The Breakthrough Data: 🎯 Field Extraction: Our FDTD solver identified a localized rectified field vector of Ex = -0.0052 at the interface. 🔄 Symmetry Breaking: This focused energy acted as a "Virtual Catalyst," inducing a deterministic Enantiomeric Lockdown in Alanine. We observed the chiral improper dihedral angle shift from a random 0° to a persistent mean of 125.86°. What This Means: By manipulating vacuum-field symmetries, we can dictate the "handedness" (chirality) of molecules with absolute precision. This validates the Resonant Enantioselective Synthesis (RES) theory and provides a blueprint for a new era of sustainable, field-driven chemical manufacturing. ⚖️ Current Status: This work is currently undergoing rigorous peer review at the Journa of Nature Scientific Reports. We are excited to contribute this methodology to the community and pave the way for a more precise, greener chemical future. #ComputationalChemistry #MolecularDynamics #FDTD #ScienceInnovation #thec4institute
#Berkeleylab Reel by @quantumlah - Senior Research Fellow Anindya Banerji explains how a quantum memory built by him and his group members works in a quantum network.
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@quantumlah
Senior Research Fellow Anindya Banerji explains how a quantum memory built by him and his group members works in a quantum network.
#Berkeleylab Reel by @scientific_american (verified account) - It's time to say goodbye to the last great U.S. particle collider. But what comes next could be even better. During its record-breaking 25-year run,
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@scientific_american
It’s time to say goodbye to the last great U.S. particle collider. But what comes next could be even better. During its record-breaking 25-year run, the Relativistic Heavy Ion Collider (RHIC) helped physicists create the heaviest, most elaborate assemblages of antimatter ever seen. It nearly put to rest a decades-long crisis over the proton’s spin. And, of course, it brought physicists closer to the big bang than ever before. Now its legacy will continue through decades of data and through its successor, the Electron-Ion Collider, a next-generation machine that will use parts of RHIC to probe quarks, gluons, and protons in even greater detail. 🎤📝: Joseph Howlett 🎞️: Kylie Murphy 📸: Joseph Howlett, Tiffany Bowman/Brookhaven National Laboratory #physics #science #particlephysics #stem
#Berkeleylab Reel by @_scientific_spectrum_ - Quantum "Holy Grail": Physicists at the Norwegian University of Science and Technology (NTNU) announced today the discovery of a potential triplet sup
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@_scientific_spectrum_
Quantum "Holy Grail": Physicists at the Norwegian University of Science and Technology (NTNU) announced today the discovery of a potential triplet superconductor (NbRe). This material can transport electrical charge and electron spin without energy loss, which could finally solve the stability issues plaguing quantum computers.
#Berkeleylab Reel by @nist (verified account) - To see the "invisible," like bacteria, scientists rely on microscopes. But what about when they want to see all the way down to the atomic level? It t
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@nist
To see the “invisible,” like bacteria, scientists rely on microscopes. But what about when they want to see all the way down to the atomic level? It turns out there are microscopes for that, too. The scanning tunneling microscope (STM) takes 3D images of individual atoms within a sample. In this room, NIST researchers design and create various samples that are then examined using the STM. This tool is useful for understanding how quantum materials behave and react to external factors such as heat and electricity. Understanding a material’s properties can determine its function, which is important for developing next-generation semiconductors and establishing new quantum standards. #Quantum #QuantumMaterials #QuantumMechanics #Atoms #Microscope

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