X-ray studies of meteorite samples, conducted by NASA and Berkeley Lab researchers, could help gauge threats to Earth by providing new insights on the microscopic makeup of asteroids and how they break up in the atmosphere.
X-ray-based experiments at Berkeley Lab will simulate—in microscopic detail—spacecraft parachute fabric performance in the extreme conditions of other planets’ atmospheres.
NASA is developing a new family of flexible heat-shield systems with a woven carbon-fiber base material, and is using X-rays at Berkeley Lab’s Advanced Light Source to test the designs.
NASA and Berkeley Lab researchers have teamed up to explore next-generation spacecraft materials at the microscale using an X-ray technique that produces 3-D images. This work could help ensure future spacecraft survive the rigors of otherworldly atmospheres.
A new Berkeley Lab study shows that high-resolution models captured hurricanes and big waves that low-resolution ones missed. Better extreme wave forecasts are important for coastal cities, the military, the shipping industry, and surfers.
The race is on to build the most sensitive experiment designed to directly detect dark matter particles known as WIMPs. The LUX-ZEPLIN project has formally cleared a key construction milestone that will propel it toward its April 2020 goal for completion.
Berkeley Lab chemists have developed a powerful new method of selectively linking chemicals to proteins, a major advance in the manipulation of biomolecules that could transform the way drugs are developed, proteins are probed, and molecules are tracked and imaged. This technique, called ReACT, is akin to a chemical Swiss army knife for proteins.