The Final Magnet for the High-Luminosity Upgrade of the Large Hadron Collider Leaves Berkeley Lab
AI for Smarter, More Powerful, More Efficient Particle Accelerators
A New Way to View Shockwaves Could Boost Fusion Research
Leading the Field in Magnets
A New Imager Could Help Unearth the Mineral Wealth of Planets and Asteroids
Color Center Qubits Could Illuminate the Path to a Quantum Future
Directional Muon Beam Shows Potential for Advanced Imaging Technique
Researchers Make Key Gains in Unlocking the Promise of Compact X-ray Free-Electron Lasers
Diagnostic Tool Sheds New Light on Instabilities in High-Power Lasers
Machine Learning Helps Ease The Jitters Of High-Power Lasers
The Technologies Fueling the Future of Fusion
Accelerating Our Understanding Of Radiation Effects In Silicon
Superconducting Magnets: Enhancing The Capabilities of Particle Accelerators
World’s Most Powerful X-Ray Laser Gets Major Energy Boost
New Magnets for Large Hadron Collider Upgrade Successfully Pass Halfway Mark
Machine Learning Accelerates Progress Toward Scalable Quantum Computers
Niobium-Tin Magnet Key to Unlocking Potential of Heavy-Ion Accelerator
Bridging the Gap in Advanced Accelerator Modeling
New Technique Could Help Build Quantum Computers of the Future
Preventing Magnet Meltdowns Before They Can Start
Unlocking the Potential of Muon Imaging
The Challenges and Triumphs of Building Niobium-Tin Magnets
Award-Winning Researcher Takes Leadership Role at Berkeley Lab
SLAC Fires Up the World’s Most Powerful Laser: LCLS-II Ushers in a New Era of Science
