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

In Electron-Ion Collider (EIC) collisions, interactions between a virtual photon (γ) emitted by an electron colliding with a proton in a nucleus can reveal the arrangement of quarks and gluons inside the nucleus.

Scientists Calculate Predictions for Electron-Ion Collider Measurements

Calculations of charge distribution in mesons provide a benchmark for experimental measurements and validate widely used 'factorization' method.

(1) Ferroelectrics: polarity switched by electric fields, (b) ferromagnetics: magnetism switched by magnetic fields, (3) ferroelastics: elasticity switched by applied stress, (4) ferrotoroidics (unconfirmed): magnetic domains switched by magnetic fields.

A New Twist in Data Storage? Magnetic Whirlpools in Energy Materials

Mapping a way to ferrotoroidicity: the long-sought fourth ferroic order with magnetic-electric properties that can enable new technologies.

The lattice arrangement in a magnetic iron-germanium metal frustrates the movement of electrons (blue and silver spheres). This gives rise to collective behavior such as charge density waves, which form at low temperatures in this material.

Uncovering and Controlling Electron Charge Waves in Quantum Materials

An unexpected electron behavior called charge density waves in an iron-germanium metal material presents a new paradigm in emergent quantum phenomena.

Drawing illustrates in 2-D how electrical conductivity (red) tends to form in the direction of greater mechanical strain (yellow arrows). This property could enable controlling a material’s thermoelectric capabilities via chemical or mechanical methods.

Hot on the Trail of a Thermoelectric Material with High-Conductivity but Slow Thermal Transfer

A “neutron camera” device reveals how a thermoelectric material maintains an overall crystalline structure despite local dynamic disorder

Artist’s impression of how X-rays make it possible to study the distortions of the layers in the microelectronics material. The atoms at the edges of the layers are either squished tighter or pulled apart, creating a bend along the different layers.

Seeing Inside Next-Generation Microelectronics Using X-rays

Scientists found two competing mechanisms that contribute to the deformation of nanosheet materials used in cutting-edge computer components.

Schematic shows a lithium-air battery cell consisting of a lithium metal anode, air-based cathode, and solid ceramic polymer electrolyte (CPE). Upon discharge and charge, lithium ions (Li+) go from anode to cathode, then back.

Innovative Lithium-Air Battery Design Poised to Increase Energy Storage

A new rechargeable lithium-air battery potentially has four times greater energy density than a traditional lithium-ion battery.

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.

Two synchronized flashes of ultrafast X-rays interact with a molecule. The electrons ionized from the molecule are detected with an energy spectrometer, providing observation of the interaction between the two particles at the attosecond timescale.

Action! Attosecond X-rays Produce Ultrafast Movies

Researchers use an X-ray free-electron laser to film electrons using finely tuned pairs of attosecond flashes.

Drawing on their expertise in plant biology and synthetic biology, scientists developed a biosensor that enables real-time detection of RNA signals in living plants, improving the ability to monitor gene expression and optimize genome engineering.

Novel Biosensors Offer In Vivo RNA Imaging in Plants

A new biosensor allows researchers to watch RNA come to light in plants.

A warm electrolyte (on the right) generates favorable changes in the photoelectrode surface, resulting in improved reaction efficiency for splitting water into oxygen (O) and hydrogen (H).

More Hydrogen from Hot Water Splitting

A higher electrolyte temperature increases the activity of a thin-film electrode for solar hydrogen generation by 40 percent.

A representation of a leaf-cutter ant fungal garden composed of leaf material being broken down by fungi that the ants consume. Bacteria in the garden can fix nitrogen and produce nutrients that the fungi need.

A Detailed Look at How Ants’ Fungal Gardens Break Down Plant Litter

Researchers developed a novel approach to map how a community of leaf-cutter ants, fungi, and bacteria work together to break down plant biomass.

High-energy, near-miss collisions of atomic nuclei allow scientists to probe the inner structure of protons and neutrons in a gold (Au) nucleus, including the density of the gluelike gluons (in yellow) that bind these nucleons’ inner building blocks.

Gluons’ Density Isn’t the Same in Bound vs Unbound Protons and Neutrons

Data show the distribution of gluon “glue” in protons and neutrons changes when they are bound together in nuclei.