The Heising-Simons Foundation has awarded $1.1M to the DESI project with the goal of helping to fabricate the unique optics needed to capture spectra of the young expanding universe.
Using extremely faint light from galaxies 10.8-billion light years away, scientists have created one of the most complete, three-dimensional maps of a slice of the adolescent universe. The map shows a web of hydrogen gas that varies from low to high density at a time when the universe was made of a fraction of the dark matter we see today.
Researchers from Lawrence Berkeley National Laboratory, the University of California Berkeley, and Pacific Northwest National Laboratory have used a high-powered electron microscope to capture the birth of calcium carbonate crystals. It is a first step, the researchers say, to better understanding how it might be possible to pull excess carbon dioxide from the air and store it in rock where it wouldn’t contribute to global warming.
Nearly 20 years ago researcher Alex Zettl of the Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab) synthesized in his lab a new material never before seen by nature: boron nitride nanotubes, the strongest, lightest, most thermally conducting, and most chemically resistant fiber known to exist. Now a startup has licensed this technology with