SLAC topics

Particle physics RSS feed

Working at the forefront of particle physics, SLAC scientists use powerful particle accelerators to create and study nature’s fundamental building blocks and forces, build sensitive detectors to search for new particles and develop theories that explain and guide experiments. SLAC's particle physicists want to understand our universe – from its smallest constituents to its largest structures.

Related links:
Physics of the universe
Elementary particle physics

Particles collide in this illustration

News Feature

The lab’s signature particle highway prepares to enter another era of transformative science as the home of the LCLS-II X-ray laser.

SLAC linear accelerator building at sunset
News Feature

The upgraded experiment aims to discover if neutrinos are their own antiparticles.

News Feature
VIA Symmetry Magazine

A GUT Feeling about Physics

Scientists want to connect the fundamental forces of nature in one Grand Unified Theory.

News Feature
VIA Symmetry Magazine

Five Fascinating Facts About DUNE

One: The Deep Underground Neutrino Experiment will look for more than just neutrinos.

News Feature

CERN physicist Edda Gschwendtner explains why we need big machines to study tiny particles.

News Feature
VIA Symmetry Magazine

Bump Watch 2016

A bump in the LHC data has physicists electrified…but what does it mean?

News Feature
VIA Symmetry Magazine

Test of DUNE Tech Begins

On the road to the world’s largest neutrino detector, take the “DUNE Buggy.”

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VIA Symmetry Magazine

Daya Bay Discovers a Mismatch

The latest measurements from the Daya Bay neutrino experiment in China don’t align with predictions from nuclear theory.

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Contributions to LIGO have come from many Stanford teams, including SLAC, Applied Physics, Mechanical Engineering, Aeronautics and Astronautics and the School of Earth, Energy...

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Dark matter hunters around the world pursue three approaches to look for fingerprints of ghostly WIMPs: on the Earth’s surface, underground and in space.

Researchers around the world pursue three approaches to look for fingerprints of dark matter's ghostly components.
News Feature
VIA Symmetry Magazine

This Radioactive Life

Radiation is everywhere. The question is: How much?

News Feature
VIA Symmetry Magazine

Our Imperfect Vacuum

The emptiest parts of the universe aren’t so empty after all.