The Laboratory recently installed a new plutonium target fabrication facility to improve our understanding of the physical characteristics of plutonium as it ages.
Science and Technology Highlights
Livermore scientists use isotope hydrology to sleuth out the source of an extensive water leak and clear an innocent suspect.
The Laboratory successfully manages generation, characterization, and shipment of transuranic waste from research and testing activities.
In 1972, Livermore created its unified Laser Program, enabling cutting-edge research in laser fusion systems that has led to a major fusion milestone.
Livermore scientists and collaborators at Penn State University are improving natural molecules that would help target specific radioactive elements that are found in nuclear waste or used in nuclear medicine.
New research by an international team including a Livermore scientist demonstrates that the Hunga explosion was comparable in size to that of the 1883 Krakatoa eruption.
Livermore scientists and collaborators have used a new technique to better forecast the level of algal toxins that accumulate in Lake Erie every year.
Lawrence Livermore will lead a National Nuclear Security Administration project with Cornelis Networks to collaborate on next-generation high-performance networking.
Livermore researchers have developed a new all-optical ultrasound technique capable of performing on-demand characterization of melt tracks and detecting formation of defects in a popular metal 3D printing process.
Livermore researchers have refined the measurement of the gamma (γ)-to-neutron branching ratio in deuterium-tritium (D-T) fusion reactions, a result that is relevant to fusion energy.