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...
A team of electrical designers develops specialized microchips for a broad range of scientific applications, including X-ray science and particle physics.
SLAC and Stanford researchers are developing a device that combines electrical brain stimulation with EEG recording, opening potential new paths for treating neurological disorders.
A new device could open new avenues for the generation of high-frequency radiation with applications in science, radar, communications, security and medical imaging.
Zeeshan Ahmed, Frederico Fiuza and Emilio Nanni will each receive about $2.5 million over five years to pursue cutting-edge research into cosmic inflation, plasma...
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.
A team of electrical designers develops specialized microchips for a broad range of scientific applications, including X-ray science and particle physics.
SLAC and Stanford researchers are developing a device that combines electrical brain stimulation with EEG recording, opening potential new paths for treating neurological disorders.
A new device could open new avenues for the generation of high-frequency radiation with applications in science, radar, communications, security and medical imaging.
Zeeshan Ahmed, Frederico Fiuza and Emilio Nanni will each receive about $2.5 million over five years to pursue cutting-edge research into cosmic inflation, plasma acceleration and using terahertz waves to accelerate particles.