QUANTUM-GEOMETRIC EFFECTS IN THREE-DIMENSIONAL FLAT-BAND SUPERCONDUCTORS
Abstract
This proposal is about the emerging field of quantum geometry within multiband superconductors, focusing on the fundamental aspects of flat-band superconductivity. While previous studies have made substantial progress in one-dimensional and two-dimensional lattices, more realistic three-dimensional lattices remain relatively unexplored due to their inherent complexities. Our work aims to fill this gap by investigating quantum-geometric effects in three-dimensional multiband superconductors. The anticipated outcomes of this work hold substantial promise for advancing our understanding of flat-band superconductivity and opening new avenues for materials design and engineering. By exploiting the intricate interplay of quantum geometry and flat-band dispersion within multiband systems, we aim to drive forward the pursuit of transformative superconducting technologies with potential impacts on various fields.
Document Details
- Document Type
- DoD Grant Award
- Publication Date
- Feb 05, 2025
- Source ID
- FA86552417391
Entities
People
- Menderes Iskin
Organizations
- Air Force Office of Scientific Research
- United States Air Force