SLAC scientists and collaborators are developing 3D copper printing techniques to build accelerator components.

After meeting at a party, a Stanford psychologist and SLAC particle physicists have collaborated on a new kind of EEG device that can stimulate the brain and read out the effects.

An “out there” theory inspired the development of the Dark Matter Radio, a device that could explain the mysterious matter that makes up 85 percent of the mass of our universe.

Two projects will look for ways to link individual quantum devices into networks for quantum computing and ultrasensitive detectors.

The SLAC scientists will each receive $2.5 million for their research on fusion energy and advanced radiofrequency technology.

Monika Schleier-Smith and Kent Irwin explain how their projects in quantum information science could help us better understand black holes and dark matter.

The 4-inch-tall device could be used in portable transmitters for rescue missions and other challenging applications demanding high mobility.

The newly launched Quantum Fundamentals, ARchitecture and Machines initiative will build upon existing strengths in theoretical and experimental quantum science and engineering at Stanford and SLAC.

This animation shows the proposed design of a future device for X-ray therapy, which researchers hope will be able to deliver radiation powerful enough to blast cancer cells in under a second instead of minutes.

SLAC and Stanford researchers secure support for two projects that share one goal: to reduce the side effects of radiation therapy by vastly shrinking the length of a typical session.

SLAC receives three awards for the development of quantum technology for dark matter searches and quantum computing

SLAC researchers play an important role in the data acquisition of the largest liquid-argon neutrino detector in the world, a prototype for the future Deep Underground Neutrino Experiment.