Oxygen Tweaking May Be the Key to Optimizing Particle Accelerators
Modeling the diffusion of oxygen into accelerator cavities allows scientists to tailor their properties.
Modeling the diffusion of oxygen into accelerator cavities allows scientists to tailor their properties.
Ultrafast electron diffraction imaging reveals atomic rearrangements long suspected to be crucial in the photochemistry of bromoform.
Ultrafast electron imaging captures never-before-seen nuclear motions in hydrocarbon molecules excited by light.
Ultrafast electron scattering measurements reveal dynamic reconfiguration of polarization in relaxor ferroelectrics by light.
Ultrafast X-ray experiments provide direct evidence that interaction of light with a hydrocarbon molecule produces strained molecular rings.
An enhanced topographic analysis toolkit for forecasting and improving particle accelerator performance is helping scientists build better accelerators.
An enhanced topographic analysis toolkit for forecasting and improving particle accelerator performance is helping scientists build better accelerators.
Electron transfer between atomically thin materials triggers the ultrafast release of heat.
Scientists discover that superconductivity in copper-based materials is linked with fluctuations of ordered electric charge and mobility of vortex matter.
Machine learning methods support human operators in diagnosing and fixing failing subsystems in an accelerator-driven X-ray laser.
Ultrafast X-ray studies reveal the existence of Superionic Ice XIX, which could explain the unusual magnetic fields of icy giant planets.
Scientists illuminate the quantum dynamics of electrons in highly excited molecules.