Particle Astrophysics & Cosmology (PAC)
Symmetry: What Can Particles Tell Us About the Cosmos?
The minuscule and the immense can reveal quite a bit about each other.
Artificial Intelligence Analyzes Gravitational Lenses 10 Million Times Faster
Menlo Park, Calif. — Researchers from the Department of Energy’s SLAC National Accelerator Laboratory and Stanford University have for the first time shown that neural networks – a form of artificial intelligence – can accurately analyze the complex distortions in spacetime known as gravitational lenses 10 million times faster than traditional methods.
SLAC’s Blair Ratcliff Wins American Physical Society’s Instrumentation Award
Symmetry: Expanding the Search for Dark Matter
At a recent meeting, scientists shared ideas for searching for dark matter on the (relative) cheap.
Video: Dark Matter Hunt with LUX-ZEPLIN
Researchers at the Department of Energy’s SLAC National Accelerator Laboratory are on a quest to solve one of physics’ biggest mysteries: What exactly is dark matter – the invisible substance that accounts for 85 percent of all the matter in the universe but can’t be seen even with our most advanced scientific instruments?
Symmetry: A New Search for Dark Matter 6,800 Feet Underground
Standard Model of the Universe Withstands Most Precise Test by Dark Energy Survey
Construction of Massive Neutrino Experiment Kicks Off a Mile Underground
Symmetry: The Rise of LIGO’s Space-Studying Super-Team
The era of multi-messenger astronomy promises rich rewards—and a steep learning curve.
Symmetry: A Speed Trap for Dark Matter, Revisited
A NASA rocket experiment could use the Doppler effect to look for signs of dark matter in mysterious X-ray emissions from space.