Berkeley Lab scientists use aerial imagery to create an interactive map that displays the solar reflectance (also known as albedo) of individual roofs in Bakersfield, Long Beach, Los Angeles, San Francisco, and San Jose.
The Daya Bay Collaboration, an international group of scientists studying the subtle transformations of subatomic particles called neutrinos, is publishing its first results on the search for a so-called sterile neutrino, a possible new type of neutrino beyond the three known neutrino “flavors,” or types.
Berkeley Lab Report Quantifies the Financial Impacts of Customer-Sited Photovoltaics on Electric UtilitiesSeptember 24th, 2014
A new report prepared by analysts from Berkeley Lab examines the potential impacts of customer-sited solar photovoltaics (PV) on electric utility profitability and rates. The report shows that these impacts can vary greatly depending upon the specific circumstances of the utility and may be reduced through a variety of regulatory and ratemaking measures.
Kem Robinson, director of the Engineering Division of Berkeley Lab and coach of a soccer team for special needs teenagers, says that many people are uncomfortable interacting with people with disabilities. So when he heard about Project SEARCH, a national program that helps adults with developmental disabilities get employed, he thought it made a lot of sense to bring it to the Lab, which has a strong commitment to inclusion and diversity.
The price of solar energy in the U.S. continues to fall substantially, according to the latest editions of two annual reports produced by Berkeley Lab. A third Berkeley Lab report, written in collaboration with researchers at Yale University, the University of Texas at Austin and the U.S. Department of Energy (DOE), shows that local permitting and other regulatory procedures can significantly impact residential photovoltaic (PV) prices.
Working at Berkeley Lab’s Advanced Light Source (ALS), researchers used “soft” X-rays to image structures only five nanometers in size. This resolution is the highest ever achieved with X-ray microscopy.
A multi-element high‐entropy alloy not only tests out as one of the toughest materials on record, but, unlike most materials, the toughness as well as the strength and ductility of this alloy actually improves at cryogenic temperatures.