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The proposed research holds the potential to significantly advance our comprehension and manipulation of coherence and dynamic processes that mediate exotic transport phenomena, collective behaviors, and quantum functionalities.
This mission of the MIEQM FWP is to understand phenomena when topological electronic bands on frustrated lattices are intertwined with magnetism.
This project explores the foundational theoretical understanding, numerical analysis, design, fabrication, and characterization of metamaterials, and their feasibility for technological applications, and targets current fundamental problems and opportunities in controlling light with matter and matter with light.
The purpose of Ames National Laboratory’s materials solid-state nuclear magnetic resonance spectroscopy (SSNMR) program is to advance the science of semiconductor nanoparticles and atomically thin 2D materials that can fulfill needs related to microelectronics, energy storage/conversion, quantum information, sensing, and separations/purifications.
The FWP goal is to build multi-component atomic scale structures with unusual precision, so structure-properties expectations are validated.
CMI researchers from Ames National Laboratory conducted the activity for this highlight
Distinguished Scientist, Division of Materials Sciences and Engineering
CMI researchers from Ames National Laboratory conducted the activity for this highlight
CMI researchers from Ames National Laboratory and Oak Ridge National Laboratory conducted the activity for this highlight
CMI researchers from Case Western Reserve University conducted the activity for this highlight