Professor Rosenberg’s research concentrates on investigating nematicity, superconductivity, and complex structural orderings through thermodynamic and transport measurements incorporating strain as a novel tuning parameter. Utilizing a variety of crystal growth techniques, he has grown and studied material systems with exotic phase diagrams like unconventional kagome superconductors, three-state Potts nematic systems, and excitonic insulators. His study will pursue the development of cutting-edge strain-based experimental probes to uncover and elucidate higher-order symmetry phases which combine electronic correlations with topology.
Elliott Rosenberg
Assistant Professor
elr425@lehigh.edu
Education:
Ph.D in Physics: Stanford University 2020
Bachelors of Engineering: Cornell University 2013
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Research Areas
Additional Interests
- Nematicity, Superconductivity and Magnetism, Topological phases of matter, Excitonic insulators, Strain.
Research Statement
Professor Rosenberg’s research concentrates on investigating nematicity, superconductivity, and complex structural orderings through thermodynamic and transport measurements incorporating strain as a novel tuning parameter. Utilizing a variety of crystal growth techniques, he has grown and studied material systems with exotic phase diagrams like unconventional kagome superconductors, three-state Potts nematic systems, and excitonic insulators. His study will pursue the development of cutting-edge strain-based experimental probes to uncover and elucidate higher-order symmetry phases which combine electronic correlations with topology.