The Hubbard Model was unable to predict electron dynamics in a simplified, one-dimensional cuprate system, hinting that an additional attractive force may be at play. 

Using an advanced technique at SLAC’s Linac Coherent Light Source, researchers make surprising discoveries.

Supported by SLAC’s catalysis group, researchers have discovered a promising method to remove contaminants during the making of polymers.

SSRL scientists have figured out how platinum electrodes dissolve, potentially paving the way for renewable energy improvements.

As a member of a collaborative team led by General Atomics, SLAC will help bridge basic research programs with the growing fusion industry. 

The research lays the groundwork for deeper exploration of high-temperature superconducting materials, with real-world applications such as lossless power grids and advanced quantum technologies.

A market and supply chain analysis for sodium- and lithium-ion batteries is the first by STEER, a new Stanford-SLAC energy technology analysis program.

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.

A SLAC study shows a process called atomic relaxation offers a new way to explore quantum states in these puzzling materials.

AI is playing a key role in helping SLAC researchers find new galaxies and tiny neutrinos, and discover new drugs.

Descamps was recognized for turning the world’s most powerful X-ray laser into a sophisticated tool for probing extremely hot, dense matter.

Tanner works on self-assembling nanocrystals, which could be the basis for less expensive, easier to build displays and solar cells.