High-entropy alloys (HEAs) stand out from multi-component alloys due to their attractive
microstructures and mechanical properties. In this investigation, molecular dynamics (MD) …

Recently a new class of metal alloys, of single-phase multicomponent composition at
roughly equal atomic concentrations (“equiatomic”), have been shown to exhibit promising …

The microscopic mechanisms of femtosecond laser ablation of an Al target are investigated
in large-scale massively parallel atomistic simulations performed with a computational …

Short pulse laser irradiation has the ability to bring a material into a state of strong electronic,
thermal, phase, and mechanical nonequilibrium and trigger a sequence of structural …

An analytic model describing substitutional solid solution strengthening in body-centered
cubic (BCC) complex, concentrated alloys (CCAs) based on a/2< 111> screw dislocation …

Due to the high surface-to-volume ratio of nanostructured components in microelectronics
and other advanced devices, the thermal resistance at material interfaces can strongly affect …

Finding high performance plasma-facing materials (PFMs) is one of the most important and
challenging tasks for realizing the commercial application of fusion reactors. Herein, we …

Refractory high-entropy alloys (RHEAs) are of interest for ultrahigh-temperature
applications. To overcome their drawbacks—low-temperature brittleness and poor creep …

The design and development of structural materials that can survive under the extreme
conditions of operation are critical to next generation aerospace and energy technologies …

The vast field of laser-enabled material synthesis, manufacturing, and processing to a large
degree relies on the ability to induce and control a range of thermal processes triggered by …