Scientists develop a new method to characterize the properties of one of the four fundamental forces of nature.
Scientists develop a new method to characterize the properties of one of the four fundamental forces of nature.
An NREL researcher makes new tools for extreme-weather predictions.
Researchers use machine learning and density functional theory to model the glass transition temperatures of polymers.
Researchers use machine learning and density functional theory to model the glass transition temperatures of polymers.
Researchers use machine learning and density functional theory to model the glass transition temperatures of polymers.
In a paper published in Chinese Physics C, researchers report having compiled experimental data for all known nuclei, including the isotopes’ main nuclear physics properties, such as mass, quantum numbers, half-life, decay modes, and branching intensities
Researchers use machine learning and density functional theory to model the glass transition temperatures of polymers.
In a paper published in Chinese Physics C, researchers report having compiled experimental data for all known nuclei, including the isotopes’ main nuclear physics properties, such as mass, quantum numbers, half-life, decay modes, and branching intensities
In a paper published in Chinese Physics C, researchers report having compiled experimental data for all known nuclei, including the isotopes’ main nuclear physics properties, such as mass, quantum numbers, half-life, decay modes, and branching intensities
Researchers use machine learning and density functional theory to model the glass transition temperatures of polymers.