Researchers at NC State have for the first time demonstrated that a specific class of oxide membranes can confine, or “squeeze,” infrared light.
Restoring natural motion paves the way for next-generation robotic medical devices to improve the quality of life especially for the aging population.
David Vargas was named the recipient of Sandia National Laboratories ‘John von Neumann Postdoctoral Fellowship’ in Computational Science.
The team developed and tested an innovative gene-analysis method, focusing on RNA, that greatly boosts the ability to identify corn genes.
Researchers created the first topological quantum simulator device in the strong light-matter interaction regime that operates at room temperature.
Simulations show that neutrinos created during these cataclysmic events are out of thermodynamic equilibrium with the cold cores of the merging stars.
Stony Brook professor Anatoly Frenkel is part of a team that has uncovered new details of the reversible assembly & disassembly of a platinum catalyst
Theoretical physicists and experimentalists worked together to measure the mass of a rare isotope expected to form a rare proton halo.
University of New Hampshire chemistry Ph.D. candidate Charles Wilson has been awarded funding to study at Brookhaven National Lab.
The material has adaptive durability, which means it stays soft when moved through consistent motion, then gets stronger when hit or stretched.