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Five College Teams to Converge at Berkeley Lab for DOE CyberForce Competition

Machine Learning Enhances Light-Beam Performance at the Advanced Light Source

Image - This image shows the profile of an electron beam at Berkeley Lab’s Advanced Light Source synchrotron, represented as pixels measured by a charged coupled device (CCD) sensor. When stabilized by a machine-learning algorithm, the beam has a horizontal size dimension of 49 microns root mean squared and vertical size dimension of 48 microns root mean squared. Some types of experiments require that the corresponding light beam be stable on time scales ranging from seconds to hours to ensure reliable data. (Credit: Lawrence Berkeley National Laboratory)

Go With the Flow: Scientists Design Better Batteries for a Renewable Energy Grid

A Game-Changing Test for Prion, Alzheimer’s, and Parkinson’s Diseases is on the Horizon

A digital model of a peptoid, bound to a magnetic bead, attaching on its other end to a prion protein aggregate

Distributed Solar Prices Fall Annually by 5% to 7%

white hot sun and solar fuels

Are Students Getting Enough Air?

World-Leading Microscopes Take Candid Snapshots of Atoms in Their ‘Neighborhoods’

4D-STEM diffraction patterns

Going Cold: The Future of Electron Microscopy

Machine Learning Algorithms Help Predict Traffic Headaches

Gaming Protein Structures: X-Ray Studies Confirm Power of Crowdsourcing

Perfectly Raw or Cooked to Perfection? How Food Preparation Affects the Gut Microbiome

New MOF Can Take On Toxic Sulfur Dioxide Gas