Effects of Lattice Geometry on Thermopower Properties of the Repulsive Hubbard Model
Offered By: ICTP-SAIFR via YouTube
Course Description
Overview
Explore a conference talk on the effects of lattice geometry on thermopower properties in the repulsive Hubbard model. Delve into correlated materials, optimum doping, and the Hover model as presented by Thereza Paiva from UFRJ, Brazil. Examine dispersion relations, correlations, and mod insulators while investigating conductivity results and spin correlations. Compare triangular, honeycomb, and square lattices, analyzing their impact on Ziba coefficients and power factors. Gain insights into magnetic relations and the significant effects observed in thermopower properties. Conclude with an exploration of thermal conductivity and the speaker's impressions on this complex topic in quantum materials.
Syllabus
Introduction
Collaborators
Summary
Conclusions
Correlated materials
Optimum doping
Hover model
dispersion relations
correlations
mod insulator
conductivity
results
spin correlations
zback coefficient
correlation
Triangular lattice
Honeycomb lattice
Square lattice
Ziba coefficient
Power factor
Conclusion
My impression
Magnetic relations
Why such a big effect
The power factor
Thermal conductivity
Taught by
ICTP-SAIFR
Related Courses
Fractionalized Metallic Phases in the Single Band Hubbard Model - Quantum Phases of Matter XXIIInternational Centre for Theoretical Sciences via YouTube Twisted Transition Metal Dicalcogenides - Tests of Quantum Embedding and Theories
Institute for Pure & Applied Mathematics (IPAM) via YouTube Basics of Dynamical Mean Field Theory
International Centre for Theoretical Sciences via YouTube Supraconductivité à Haute Température Critique et Modèle de Hubbard
Institut Henri Poincaré via YouTube SCAN Functional and DFT Errors for Open-Shell d- and f-Electron Systems
MuST Program for Disordered Materials via YouTube