Evidence of High-Temperature Superconductivity in Single Layer Unveiled
October 2, 2015 | ORNLEstimated reading time: 2 minutes
Electron microscopy at the Department of Energy’s Oak Ridge National Laboratory is pointing researchers closer to the development of ultra-thin materials that transfer electrons with no resistance at relatively high temperatures.
The study delivers direct evidence of high-temperature superconductivity at the interface of two insulating oxide materials. The paper by researchers from ORNL and the University of Rome Tor Vergata (Italy) is published in Physical Review Letters.
“One grand challenge in science is to manipulate materials locally by changing the distribution of atoms and the electronic structure, and that’s what we’re doing here,” Cantoni said. “This is a way to control the material – by manipulating the oxygen to make this interface superconducting.”
The ability to control and confine a material’s superconductivity could lead to two-dimensional superconductors for applications such as increasingly smaller computing technologies.
“We always want to scale down to get functionality in thinnest amount of material possible,” Cantoni said. “Usually when a material becomes thinner and thinner, its superconductivity disappears.”
In the PRL study, researchers used scanning transmission electron microscopy at ORNL to examine the interface between two insulators, calcium copper oxide and strontium titanate oxide. The resulting data, combined with electron energy loss spectroscopy, confirmed that high-temperature superconductivity occurs within a highly confined region around the interface.
“We were able to establish that a one-unit-cell-thick calcium copper oxide layer at this interface is superconducting and that the critical temperature approaches 50 Kelvin, which is considered high temperature superconductivity,” Cantoni said.
The team’s microscopy showed that superconductivity arises from oxygen ions that are incorporated into the interface calcium layer during the growth process. The extra oxygen ions pull electrons from the adjacent copper oxide layer, creating holes known to produce superconductivity.
The study is published as “High Tc superconductivity at the interface between the CaCuO2 and SrTiO3 insulating oxides.” Coauthors include University of Rome Tor Vergata’s D. Di Castro, F. Ridolfi, C. Aruta, A. Tebano, N. Yang, and G. Balestrino.
The research was supported in part by DOE’s Office of Science (Basic Energy Sciences) and used resources of the Center for Nanophase Materials Sciences, a DOE Office of Science User Facility at ORNL.
ORNL is managed by UT-Battelle for the Department of Energy’s Office of Science.
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 science.energy.gov.
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