The theoretical particle is considered a possible explanation for anomalies seen in previous physics experiments.
Using multimodal synchrotron X-ray techniques, the team uncovered new connections between printing parameters and the defect state in the material.
The team, led by Ivan Oleynik, utilized the Summit supercomputer to explore how carbon atoms behave at extremely high pressures and temperatures.
The seven-institution team will investigate how the life and death of soil microbes may author the destiny of most of the world’s soil carbon.
A team led by Washington State U has received a $3.6 million grant on how to capture carbon dioxide out of the air to mitigate climate change.
Collaborators used cutting-edge technology to record spectacularly precise 3D images of neutrino events to examine particle interactions in detail.
The davemaoite grains discovery enabled chemical measurements of a mineral that is the main host of many important trace elements in the deep Earth.
An international collaboration led by UMass Amherst probes the links between microbes, healthy soil and carbon.
MIT physicists and colleagues have demonstrated an exotic form of superconductivity in a new material the team synthesized only about a year ago.
Rice University theory shows potential to synthesize material on an insulator.