Entry Date:
January 19, 2017

Geometrical Frustration in Spin Orbit Systems

Principal Investigator Joseph Checkelsky

Project Start Date February 2016

Project End Date
 January 2021


The behavior of electrons in solids can often be understood in analogy with that of free electrons, but with the electronic mass replaced by an effective mass determined by the detailed atomic and structural properties of the solid. Deviations from this simple behavior due to interactions between electrons or additional degrees of freedom of the individual electrons are at the heart of some of the most fundamentally important electronic phenomena. Examples range from superconductivity to magnetism and include material behavior of broad technological relevance. This CAREER project studies electronic materials that realize new types of unconventional behavior by combining two typically disparate phenomena: strong coupling of the spin and orbital degrees of freedom of individual electrons and low connectivity (frustrated) crystalline lattices that enhance interactions between electrons. The project experimentally explores this combination via synthesis, characterization, and analysis of such materials towards new interacting states to forge the building blocks of the next generation of electronics. The role of materials synthesis in this research dovetails with its educational efforts to improve the status of education in crystal growth in the United States. This involves both crystal growth training at the principal investigator's institution for a wide range of students and researchers and exchange activities with internationally recognized centers for crystal growth. These educational efforts also include K-12 collaborations with science enrichment activities that feature direct interaction between elementary school students and educators with the principle investigator and the research team. These efforts are designed to educate, engage, and inspire these students for future careers in science and technology.