3D-Printed Alloys Offer Improved Strength and Ductility
Laser-based additive manufacturing produces high-entropy alloys that are stronger and less likely to fracture.
Laser-based additive manufacturing produces high-entropy alloys that are stronger and less likely to fracture.
Novel techniques allow the first direct observation of a predicted effect that results in the suppression of gluon radiation emitted by a heavy quark.
New tools borrowed from quantum computing will improve the detection of X-rays and gamma-rays.
Solving atomic structure and binding for improved antiviral drugs.
New gate design leads to fast coherent control of novel electromagnonics devices.
Crystalline nanoribbons synthesized to resonate with infrared light for imaging, sensing, and signaling pass a crucial test.
A unique study of a key reaction in X-ray burst nucleosynthesis bolsters the theoretical models used to calculate reaction rates.
A tungsten carbide catalyst can produce a hydrocarbon from carbon dioxide at high rates and high efficiency.
Ultrafast X-ray studies reveal the existence of Superionic Ice XIX, which could explain the unusual magnetic fields of icy giant planets.
Bright electron beams unlock the study of small, thin materials on ultrafast timescales.
A graphene-insulator coating enables scientists to tune the energy required to liberate electrons from semiconductors.
Scientists illuminate the quantum dynamics of electrons in highly excited molecules.