SLAC scientists have found a new way to produce bright pulses of light from accelerated electrons that could shrink "light source" technology used around...
Researchers from Oxford, SIMES and Berkeley Lab say cadmium arsenide could yield practical devices with the same extraordinary electronic properties as 2-D graphene.
By finding surprising similarities in the way immune system defenders bind to disease-causing invaders, a new study may help scientists develop new treatments.
SLAC-led researchers have made the first direct measurements of a small, extremely rapid atomic rearrangement that dramatically changes the properties of many important materials.
Agostino Marinelli, a postdoctoral researcher in the Accelerator Directorate, has been named the 2014 recipient of the Frank Sacherer Prize from the European Physical...
SLAC's Siegfried Glenzer has been selected to receive an Ernest Orlando Lawrence Award, presented by the U.S. Secretary of Energy to honor scientists across...
A new theory and computer simulation by SLAC and Stanford researchers rule out high-energy magnetic interactions as a major factor in making copper oxide...
SLAC researchers have found a new way to transform graphite into diamond. The approach may have implications for industrial applications ranging from cutting tools...
Scientists have discovered a potential way to make graphene – a single layer of carbon atoms with great promise for future electronics – superconducting...
SLAC scientists have found a new way to produce bright pulses of light from accelerated electrons that could shrink "light source" technology used around the world since the 1970s to examine details of atoms and chemical reactions.
Researchers from Oxford, SIMES and Berkeley Lab say cadmium arsenide could yield practical devices with the same extraordinary electronic properties as 2-D graphene.
By finding surprising similarities in the way immune system defenders bind to disease-causing invaders, a new study may help scientists develop new treatments.
Given a year to mature, the Institute for Chemical Biology is relaunching under a new name that better reflects its vision of bringing Stanford's unique interdisciplinary culture to bear at a new frontier of chemistry.
SLAC-led researchers have made the first direct measurements of a small, extremely rapid atomic rearrangement that dramatically changes the properties of many important materials.
Rolls-Royce researchers came to SLAC earlier this month as part of a team testing titanium and its alloys, such as those used in engine parts, landing gear and other aircraft components
Agostino Marinelli, a postdoctoral researcher in the Accelerator Directorate, has been named the 2014 recipient of the Frank Sacherer Prize from the European Physical Society.
SLAC's Siegfried Glenzer has been selected to receive an Ernest Orlando Lawrence Award, presented by the U.S. Secretary of Energy to honor scientists across a range of fields.
A new theory and computer simulation by SLAC and Stanford researchers rule out high-energy magnetic interactions as a major factor in making copper oxide materials perfect electrical conductors – superconductors – at relatively high temperatures.
Five years ago, the brightest source of X-rays on the planet lit up at SLAC. The Linac Coherent Light Source (LCLS) X-ray laser's scientific and technical progress since its momentous "first light" have been no less luminous, say those who...
SLAC researchers have found a new way to transform graphite into diamond. The approach may have implications for industrial applications ranging from cutting tools to electronic devices.
Scientists have discovered a potential way to make graphene – a single layer of carbon atoms with great promise for future electronics – superconducting, a state in which it would carry electricity with 100 percent efficiency.
