Science Highlights | U.S. DOE Office of Science (SC)

An artificial intelligence-driven approach established by advanced characterization (X-ray and thermal imaging) improves printed parts by monitoring 3D printing processes in real time to accurately detect keyhole pores, a typical printing defect.

Detecting 3D-Printing Defects in Real Time

Scientists develop a new approach for detecting defects in metal parts produced by additive manufacturing.

The nuclear electron capture decay of highly localized beryllium-7 atoms inside a superconducting tunnel junction sensor provides direct access to quantum properties of the neutrino (e) via a precision measurement of the recoiling lithium-7 atom.

Rare Isotopes Shed Light on the Size of a Neutrino Wavepacket

Precise measurement of beryllium-7 nuclear decay recoils directly probes the quantum properties of the neutrino for the first time.

3D-printed metal samples are about 4 inches wide. Printed and heat-treated samples are mounted on a pedestal and exposed to a neutron beam to analyze residual stresses, or irregularities such as cracks or voids, created during the manufacturing process.

Neutrons Help Improve 3D-Printed Superalloys for Applications in Extreme Environments

Neutron experiments revealed microscopic details about a special 3D-printed superalloy that could potentially reduce component costs.

Water-soluble and oil-soluble organic molecules effectively separate different elements in the lanthanide series of the Periodic Table.

“Tug of War” Tactic Enhances Chemical Separations for Critical Materials

Opposing teams of water-loving and oil-loving molecules separate metals called lanthanides that are important in developing clean energy technologies.

Long-Lived State in Radioactive Sodium Discovered at the Facility for Rare Isotope Beams

A newly discovered excited state in radioactive sodium-32 has an unusually long lifetime, and its shape dynamics could be the cause.

Ultrathin Crystals Vibe with Infrared Light

Crystalline nanoribbons synthesized to resonate with infrared light for imaging, sensing, and signaling pass a crucial test.

Bio-Mining Fool’s Gold

Understanding how methanogenic bacteria can “bio-mine” minerals advances biotechnology and helps scientists understand the Earth’s geological history.