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

A 3D view of the energy densities of electron neutrinos, electron anti-neutrinos, heavy-lepton neutrinos and heavy-lepton anti-neutrinos about five milliseconds after neutron stars collide.

When Neutron Stars Collide, Neutrinos Change Flavors

Scientists have developed a simulation of the merger of two neutron stars that includes the oscillation of different neutrino flavors into one another.

Left: X-ray tomography (XRT) image of a miniature sandstone sample. Right: A diffraction microscopy reconstruction of each grain’s compressive stress magnitude and orientation (portrayed as lines with length proportional to magnitude) during deformation.

Revealing Rock Stresses and Fractures in 3D

The evolution of a sandstone’s texture, structure, and stress was measured during deformation for the first time.

The QUANT-NET research team has designed a two-level control framework for quantum networks. This two-level control framework and scheduler are being deployed and evaluated in the QUANT-NET testbed.

Building a Flexible Control Framework for Quantum Networks

A new control framework enables automated, reliable control of quantum networks, paving the way for practical deployment.

The final version of the redesigned drug binds tightly to the main COVID-19 protease, an enzyme the virus needs to multiply. The drug’s structure is effective even against mutated forms that resist other treatments.

Redesigned Hepatitis C Drug Becomes a Powerful New Treatment for COVID-19

Scientists transformed an old drug into a potent COVID-19 treatment effective against drug-resistant variants.

The Uncertainty Toolbox provides a suite of evaluation, visualization, and recalibration functionalities for uncertainty quantification.

Uncertainty Toolbox: A Software Toolbox for Quantifying Uncertainty and More

The Uncertainty Toolbox, a popular open-source library for uncertainty quantification and calibration, is a valuable tool for fusion and other research.

Images showing mice injected with radioactive antimony. Left panel with TREN-CAM shows how the radioactive antimony will be active longer in the treatment areas. The right panel shows that the antimony without TREN-CAM doesn’t stay in the desired areas.

Progress Towards Unlocking Antimony’s Cancer Treatment Potential

Researchers gain a new understanding of the binding chemistry of radioactive antimony, opening doors for targeted therapy.

Scientists used a new method to create 3D metallic and semiconductor nanostructures. The scale bar represents one micrometer. The graphics show how the researchers combined multiple techniques to layer materials on top of a 3D DNA framework "scaffolding."

Building 3D Nanoscale Structures Through DNA-Assembly and Templating

Using DNA scaffolding, scientists developed a universal method for producing a wide variety of functional, 3D metallic and semiconductor nanostructures