A Surprising Discovery: Magnetism in a Common Material for Microelectronics
For the first time, researchers discovered magnetic order at high temperature in a metal widely used by the electronics industry.
For the first time, researchers discovered magnetic order at high temperature in a metal widely used by the electronics industry.
Scientists create a genome-wide map of gene activity in bacteriophages.
Pseudomonas putida uses cheap plant biomass as a carbon source to make the precursor isoprenol.
Classical and quantum chips combine to simulate the collision of two neutrons on a present-day quantum computer.
Data from heavy ion collisions give new insight into the electromagnetic properties of quark-gluon plasma “deconfined” from protons and neutrons.
Scientists study a key reaction in X-ray bursts, shedding light on the reaction mechanisms behind thermonuclear flare-ups during these events.
The observation of a rare potassium-40 decay aids in estimating neutrinoless double-beta decay half-life and dating geological features.
Theorists propose nucleon energy-energy correlator as a probe to the gluon saturation phenomena at the future electron-ion collider.
Quantum entanglement changes in atomic nuclei in ways that differ from other systems.
Scientists develop a new method to characterize the properties of one of the four fundamental forces of nature.
Scientists test a novel design for superconducting switches in magnetic fields.
Scientists in nuclear physics, astrophysics, energy, national security, and medicine use a source of recommended nuclear data to advance their research.