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Home > Press > Scientists gain insight into origin of tungsten-ditelluride's magnetoresistance

A team of researchers from Argonne's Materials Science Division and Northern Illinois University, working collaboratively with researchers at Argonne's Center for Nanoscale Materials, report two new findings on WTe2: (1) WTe2 is electronically 3-D with a mass anisotropy as low as 2, and (2) the mass anisotropy varies with temperature and follows the magnetoresistance behavior of the Fermi liquid state. The results not only provide a general scaling approach for the anisotropic magnetoresistance but also are crucial for correctly understanding the electronic properties of WTe2, including the origin of the remarkable "turn-on" behavior in the resistance versus temperature curve, which has been widely observed in many materials and assumed to be a metal-insulator transition.
CREDIT: Argonne National Laboratory
A team of researchers from Argonne's Materials Science Division and Northern Illinois University, working collaboratively with researchers at Argonne's Center for Nanoscale Materials, report two new findings on WTe2: (1) WTe2 is electronically 3-D with a mass anisotropy as low as 2, and (2) the mass anisotropy varies with temperature and follows the magnetoresistance behavior of the Fermi liquid state. The results not only provide a general scaling approach for the anisotropic magnetoresistance but also are crucial for correctly understanding the electronic properties of WTe2, including the origin of the remarkable "turn-on" behavior in the resistance versus temperature curve, which has been widely observed in many materials and assumed to be a metal-insulator transition.

CREDIT: Argonne National Laboratory

Abstract:
Scientists recently discovered that tungsten ditelluride (WTe2) is electronically three-dimensional with a low anisotropy. Anisotropy reflects the change in properties of a material when the direction of the current or the applied magnetic field is varied.

Scientists gain insight into origin of tungsten-ditelluride's magnetoresistance

Argonne, IL | Posted on October 21st, 2015

Similar to graphite consisting of weakly bound graphene layers, WTe2 is a layered material that could be reduced to few layers in thickness or a monolayer and be used in making nanoscale transistors in other electronics. The material was originally thought to be two-dimensional in nature because of the ease with which its layers could be separated.

WTe2 has been the subject of increased scientific interest since a 2014 research study outlined its unusual magnetoresistance, which is the ability of a material to change the value of its electrical resistance when subjected to an external magnetic field.

This particular finding "is interesting in its own right because it shows that the mechanical and electrical properties of a material are not always as closely linked as we may assume," wrote Kamran Behnia, director of quantum matter research at Le Centre National de la Recherche Scientifique in Paris, in an opinion piece on the latest research discovery about WTe2 published in journal Physics, which provides news and commentary on select papers from American Physical Society journals.

Researchers also discovered that the anisotropy of WTe2 varies and displays the magnetoresistance behavior of the Fermi liquid state, which is a theoretical model that describes the normal state of most metals at sufficiently low temperatures.

"In addition to its small values, we found that the anisotropy also varies with temperature and follows the magnetoresistance behavior. This implies a possible temperature induced change in the electronic structure of this material," said Argonne's Zhili Xiao, who led this research. "These findings are important for accurately understanding the electronic properties of WTe2 and other extremely magnetoresistance materials."

###

Photolithographic patterning, deposition and morphological analysis via scanning electron microscopy was accomplished at Argonne's Center for Nanoscale Materials, an Office of Science User Facility. Resistivity measurements and quantum oscillations of resistivity were performed in Argonne's Materials Science Division (MSD).

The research is described in "Temperature-Dependent Three-Dimensional Anisotropy of the Magnetoresistance in WTe2," published in Physical Review Letters.

The paper's co-authors are L.R. Thoutam and Z.L Xiao of Argonne MSD and Northern Illinois University; Y.L. Wang and W.K. Kwok of Argonne MSD; S. Das, A. Luican-Mayer and R. Divan of Argonne's Center for Nanoscale Materials; and G.W. Crabtree of Argonne MSD and the University of Illinois at Chicago.

This work was supported by the DOE Office of Science. Scientists used the Center for Nanoscale Materials to perform nanopatterning and morphological analysis.

####

About Argonne National Laboratory
Argonne National Laboratory seeks solutions to pressing national problems in science and technology. The nation's first national laboratory, Argonne conducts leading-edge basic and applied scientific research in virtually every scientific discipline. Argonne researchers work closely with researchers from hundreds of companies, universities, and federal, state and municipal agencies to help them solve their specific problems, advance America's scientific leadership and prepare the nation for a better future. With employees from more than 60 nations, Argonne is managed by UChicago Argonne, LLC for the U.S. Department of Energy's Office of Science.

The U.S. Department of Energy'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, visit the Office of Science website.

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