Investigating Thermodynamic Properties of Honeycomb Systems FePS3 and RuPS3
Quantum mechanics shows us that the electronic energy levels of isolated atoms are discrete. Upon the formation of a solid with many atoms, these energy levels merge to become quasi-continuous functions of the electrons momentum known as energy bands. In CeSb, the structure of these energy bands protects the stability of a semimetal state that would, in the absence of topological considerations, be destroyed in favor of an insulating state. In addition, CeSb possesses local magnetic moments that strongly interact with the electrons of the solid. I will be investigating how the magnetic order of the system interacts with its unique topology and how these interactions manifest themselves as bulk electrical, magnetic, and thermal properties of CeSb. The high mobility and low concentration of the carriers make this material an attractive candidate for new semiconductor devices.
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- Major: Physics
- Mentor: James Analytis