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Fragmented magnetism


"Fragmented spins are represented by purple circles of diameters 1/3, 2/3 and 4/3, according to the moment of the fragmented part" @ Canals, B. etl (2016). Fragmentation of magnetism in artificial kagome dipolar spin ice. Nature communications, 7, 11446.

Working with a compound in the class of materials known as Mott insulators, a team of researchers from Boston College, MIT, and U.C. Santa Barbara used spin-polarizing scanning tunneling microscopy (SP-STM) to detail at the atomic level the underlying physics of one example of these insulators, which can be manipulated into a metallic state through the addition of an electronic charge, a process called doping, said Boston College Assistant Professor of Physics Ilija Zeljkovic, a lead author of the report.


A Mott insulator is characterized by localization of electrons due to strong electron-electron interactions, and it is typically accompanied by magnetic ordering, Zelkjovic explained. In this case, the team developed and studied the surface of Mott insulator strontium iridate, an oxide, in the form of single crystals.


In many complex oxides, magnetic ordering is embedded within a spatially inhomogeneous landscape of other phases, he said. The team sought to perform measurements at single atom-length scales, with both charge and spin sensitivity in order to fully understand the underlying physics, a procedure that had yet to be achieved in any complex oxide.


By employing spin-polarizing scanning tunneling microscopy (SP-STM), Zeljkovic and his colleagues report that the team was able to perform this experiment for the first time. The measurements help to understanding how an antiferromagnetic Mott insulator evolves with charge carrier doping, which has puzzled scientists since the discovery of prototypical doped Mott insulators, which are copper-oxide high-temperature superconductors, Zeljkovic said.



By tracking its evolution with charge carrier doping, the researchers discovered that, with a low level of doping, the homogeneous antiferromagnetic order of the material's electrons melts into a fragmented, "patchy" antiferromagnetic order near the insulator-to-metal transition, the team reported.


Zeljkovic said the results advance the understanding of the unique characteristics of Mott insulators, and also establish SP-STM as a powerful tool capable of revealing atomic-scale information in complex oxides. The assistant professor of physics is one of 73 scientists selected by the Office of Science for the U.S. Department of Energy’s Early Career Research Program and will receive $150,000 annually over the next five years for research into new quantum materials


Fragmentation of magnetism in artificial kagome dipolar spin ice

Benjamin Canals, Ioan-Augustin Chioar, Van-Dai Nguyen, Michel Hehn, Daniel Lacour, François Montaigne, Andrea Locatelli, Tevfik Onur Menteş, Benito Santos Burgos & Nicolas Rougemaille

Nature Communications volume 7, Article number: 11446 (2016)


Contact information:

Ilija Zeljkovic

Assistant Professor of Physics at Boston College

Phone: 617-552-6490

Zeljkovic Lab - Nanoscale Synthesis and Characterization of Quantum Materials


Boston College

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