An illustration showing how highly nanostructured 3-D superconducting materials can be created based on DNA self-assembly. Credit: Brookhaven National Laboratory Complex 3D nanoscale architectures based…
Posts published in “Brookhaven National Laboratory”
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Schematic diagram showing both the magnetism and the conductive behavior on the surface of MnBi2Te4. The magnetism points uniformly upward, as shown by the red…
Nationwide effort to build quantum networks and usher in new era of communications. Credit: Image by UChicago In a press conference at the University of…
A gold–gold collision recorded by the Heavy Flavor Tracker (HFT) component of the STAR detector at the Relativistic Heavy Ion Collider (RHIC). The white points…
Ion-based technology may enable energy-efficient simulations of the brain’s learning process, for neural network AI systems. Teams around the world are building ever more sophisticated…
In space, astronauts are constantly bombarded by galactic cosmic radiation, comprised of a mixture of highly energetic ions, putting them at increased risk of radiogenic…
The team of scientists worked together with Eli Stavitski (left) and Yonghua Du (right) to “see” the lighter elements in their catalyst at the Tender…
Inner vertex components of the STAR detector at the Relativistic Heavy Ion Collider (righthand view) allow scientists to trace tracks from triplets of decay particles…
This is an artistic representation of an x-ray interacting with layers containing different orbital character. Ionic character orbitals are colored green; while covalent character orbitals…
This animation shows how solid crystals of scandium fluoride shrink upon heating. While the bonds between scandium (green) and fluorine atoms (blue) remain relatively rigid,…
An element-specific, scanning transmission electron microscopy (STEM) image of the atoms in a new material developed by Yale University in collaboration with Brookhaven National Laboratory.…