Sensors, integrated circuits & electronics

Researchers reengineered an ePix10k detector for use in ultrafast electron diffraction, empowering studies of chemical processes that were previously out of reach. 

Argonne, SLAC researchers designed a chip that compresses and processes detector data instantly, letting scientists analyze results and steer experiments as they happen.

SLAC experts discuss how microelectronics impacts our lives and where the future lies in this Q&A.

SLAC and Stanford partner with Argonne National Laboratory and others toward a quantum-interconnected world.

The microelectronics that power daily life and speed discoveries in science and technology are the focus of a bold new vision to make them more energy efficient and able to operate in extreme environments.

Researchers across the lab are developing AI tools to harness data and particle beams in real time and make molecular movies, speeding up the discovery process in the era of big data.

Digital design engineer Abhilasha Dave’s passion for connecting machine learning and hardware is helping SLAC solve big data challenges.

David Cesar, Julia Gonski and W.L. Kimmy Wu will each receive $2.75 million issued over five years for their research in X-ray and ultrafast science, new physics and primordial gravitational waves.

Learn about the 10-year Legacy Survey of Space and Time (LSST), the SLAC-built LSST Camera and NSF-DOE Vera C. Rubin Observatory in this video.

The ePix series of detectors is designed to keep pace with ever more demanding experiments at SLAC and elsewhere.

The ePix10k detector is ready to advance science at SLAC’s Linac Coherent Light Source X-ray laser and at facilities around the world.

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.