SLAC topics

Kavli Institute for Particle Astrophysics & Cosmology (KIPAC) RSS feed

KIPAC brings the power of theory, computation, experiments and observations to bear on astrophysical questions, from the origins of cosmic rays to the structure and evolution of the universe. 

Visit KIPAC website

Kavli Institute for Partical Astrophysics and Cosmology (KIPAC) scientist Ralf Kaehler at work here in the "Vizlab."

Video

An Exploration of Art & Physics

Video
News Feature

Scientists, including researchers at SLAC, have only just begun to study the remarkably detailed map they created of a portion of the sky.

DES End of Observations
Press Release

SLAC scientists find a new way to explain how a black hole’s plasma jets boost particles to the highest energies observed in the universe...

Cosmic particle accelerators
News Feature
VIA Symmetry Magazine

Gravitational lenses

Predicted by Einstein and discovered in 1979, gravitational lensing helps astrophysicists understand the evolving shape of the universe.

News Feature

Astrophysicists use a catalog of extended gamma-ray sources spotted by Fermi spacecraft to home in on mysterious properties of deep space.

Fermi extended sources
News Feature
VIA Symmetry Magazine

Dark matter vibes

New technology could help future SuperCDMS SNOLAB experiment expand the search for light dark matter particles

SuperCDMS Prototype Crystal
News Feature

The LSST cryostat, now fully assembled, will keep the camera’s image sensors continuously cooled to minus 150 degrees Fahrenheit for crisp, high-sensitivity views of...

LSST Cryostat Grid
News Feature

She’ll direct the future of astrophysics research at SLAC and Stanford for the next five years.

Risa Wechsler 2018
News Feature

By capturing the most energetic light in the sky, the spacecraft continues to teach us about the mysteries of the universe.

Fermi scientists Michelson, Atwood and Ritz
Press Release

The SuperCDMS SNOLAB project, a multi-institutional effort led by SLAC, is expanding the hunt for dark matter to particles with properties not accessible to...

SuperCDMS Detector 2
Illustration
The SuperCDMS dark matter experiment will be located at the Canadian laboratory SNOLAB, 2 kilometers (6,800 feet) underground inside a...
SuperCDMS Location
News Feature

The Large Synoptic Survey Telescope will track billions of objects for 10 years, creating unprecedented opportunities for studies of cosmic mysteries.

LSST