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

A schematic illustration of the material stack.

Revealing Buried Layers: Exploring the Metal-Substrate Interface Layer in Superconducting Films

Researchers used a multimodal approach to determine the metal-substrate interface in a superconducting qubit material.

Image of a Wigner crystal captured by a high resolution ultra-low temperature scanning tunneling microscope. The periodic sites (blue) form a triangular structure with each consisting of exactly one electron separated by 40 billionths of a meter.

Visualizing an Elusive Quantum Crystal

Discovery proves the existence of the mysterious Wigner crystal — an unusual kind of matter made entirely of electrons.

Left: Scanning tunnel microscopy image of an atomic layer of bismuth/bismuthene (green) on a tin-selenium substrate (black). The inset shows Weyl fermions’ electronic signature. Right: It shows that bismuthene has robust electrical currents at its edges.

Unusual Massless Particle Discovered in a 2D Material

Although scientists conceived of Weyl fermions in 3D, researchers have observed their 2D equivalent in a monolayer film.

Researchers Create New Heavy-Metal Molecule ‘Berkelocene’

Big breakthrough in heavy-element chemistry shatters long-held assumptions about transplutonium elements.

Illustration of an eye with the chemical structure for rhodopsin molecules in front of it

Unveiling the Molecular Mechanism of Vision Using Ultrafast X-ray Pulses

How visual rhodopsin responds to light in one of nature’s fastest reactions. 

An illustration with blue pairs of electrons on the left against a teal background and pink pairs of electrons on the right against a pink background with a honeycomb layer between them

Can a Superconductor Also Be a Magnet?

Special graphite flakes are defying conventional thought in physics by showing that a material can be a superconductor and a magnet at the same time.

Illustration showing how different molecular surfaces result in pollutants moving through them differently, with a molecular diagram linked to a graph showing different probabilities. There is a series of three pictures above illustrating a farm, a connected power system, and a water filtration system.

Improving Continuum-Scale Models with Molecular-Scale Interface Science

Researchers propose a new approach to modeling adsorption processes that affect how pollutants move through soil, water, and rock.

A huge plume of brown smoke emerging from a volcano

Can AI Anticipate Earthquakes?

Automatic speech recognition predicts earthquake fault displacement.

Microscopy image with a zoom-in to show the layers of different substances, as well as a graph showing resistivity changes substantially depending on temperature.

Harnessing Entangled Spin Fluctuations for Advanced Spin Electronics

The spin fluctuations of an insulating quantum magnet determine how electricity flows in a nearby metal film.

Illustration showing a crystal structure, with balls connected by lines and a blue ball increasing in size moving above the structure

Thin Materials and Fat Electrons: A Recipe for New Quantum Phenomena

The 2D material cerium silicon iodide contains the same heavy electrons responsible for heavy fermion physics, something so far seen only in 3D materials.

Graphic showing how a thin film can go through compressive strain on top of a substrate to become superconducting as well as a line graph showing how the most strain induces superconductivity

Unveiling the Link Between High Pressure and Superconductivity

Researchers have learned how to retain superconductivity at ambient pressure in a new class of high temperature superconductors.

Improvements to Americium-241 processing can increase yield, decrease the amount of waste generated, and reduce the radiological dose workers receive.

Improving Large-Scale Domestic Production of Americium-241, a Critical Component in Smoke Detectors and Nuclear Batteries

Researchers explore the effects of radiation and harsh chemicals to optimize americium-241 production.