Smoother Surfaces Make for Better Particle Accelerators
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.
An enhanced topographic analysis toolkit for forecasting and improving particle accelerator performance is helping scientists build better accelerators.
Solving quantum many-body problems with wavefunction matching.
Layers of a surface-conducting material, sandwiched between layers of a magnetic insulator, could lead to more powerful, energy-efficient electronics.
Researchers used neutrons to study porous metal materials called MOFs that trap toxic gases that are harmful to the environment and human health.
Ultrafast X-ray imaging created with new technology offers insights into improving the energy efficiency of combustion engines.
Electron transfer between atomically thin materials triggers the ultrafast release of heat.
Scientists chart a path to sub-femtosecond hard X-ray Free-Electron-Laser pulses powered by compact plasma-based accelerators.
Recent advances enable simulations near a possible critical endpoint of the transition between the quark gluon plasma and a hadron liquid.
New nuclear physics measurements shed light on the synthesis of heavy elements in stars.
The Facility for Rare Isotope Beams opens a new research avenue and observes three new rare isotopes.
Nuclear physicists shatter a nearly 30-year-old record for the measurement of parallel spin within an electron beam.