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Ames Laboratory scientist's calculation featured on cover of Physical Review Letters

DOE/Ames Laboratory

Research performed by U.S. Department of Energy's Ames Laboratory Associate Scientist Durga Paudyal was recently featured on the cover of the November 13, 2015, issue of Physical Review Letters.

In his paper, "Complex Magnetism of Lanthanide Intermetallics and the Role of their Valence Electrons: Ab Initio Theory and Experiment," Paudyal and coauthors used electronic structure theory to explain how a mobile "electronic adhesive" helps localized electrons communicate and interact with one another.

The research was performed using compounds of gadolinium combined with three nonmagnetic elements: magnesium, zinc and cadmium.

In addition to supporting communications among localized electrons, Paudyal's research also discovered that the mobile electron adhesive flows up and down the energy scale, thus controlling the electrons near the top. These topmost electrons are the ones responsible for different, yet predictable changes of magnetic order when chemistry, temperature or pressure are changed individually or together.

"This discovery opens up many new opportunities in rare-earth based responsive and permanent magnet materials research," said Paudyal. "We'll be able to find out how they behave at working temperatures."

Other Ames Laboratory scientist authors on the paper included Yaroslav Mudryk, Vitalij Pecharsky and Karl Gschneidner, Jr. The scientists collaborated with lead author Leon Petit from the Daresbury Laboratory in the United Kingdom and Julie Staunton from Warwick University in the United Kingdom.

"We've seen a dramatic rise in the use of rare-earth materials as essential elements in everything from smart phones to computers, automobiles, LED and compact fluorescent lights, and color displays in TVs and monitors. These findings are critically important to furthering research related to these materials," said Gschneidner, who is a senior metallurgist at Ames Laboratory, a Distinguished Professor of materials science and engineering at Iowa State University, and the chief scientist of the Critical Materials Institute.


The paper can be found at the following web address:

This work was supported at Ames Laboratory by the Department of Energy's Office of Science. Additional support was provided by the Engineering and Physical Sciences Research Council in the United Kingdom.

Ames Laboratory is a U.S. Department of Energy Office of Science national laboratory operated by Iowa State University. Ames Laboratory creates innovative materials, technologies and energy solutions. We use our expertise, unique capabilities and interdisciplinary collaborations to solve global problems. For more information, please visit

DOE's Office of Science is the single largest supporter of basic research in the physical sciences in the United States, and is working to address some of the most pressing challenges of our time. For more information, please visit

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