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Topological Phase Transitions in Strongly Disordered and Amorphous Systems

Offered By: ICTP-SAIFR via YouTube

Tags

Disordered Systems Courses Graphene Courses Quantum Materials Courses

Course Description

Overview

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Explore topological phase transitions in strongly disordered and amorphous systems through this 44-minute conference talk from the Workshop on Strong Electron Correlations in Quantum Materials. Delve into precursors, graphene binding Hamiltonians, and spinless models while examining experimental evidence and various mechanisms. Investigate spin flip phenomena, magnetic disorder, and the Brillouin zone. Learn about bismuthane, annealing processes, and results from Haldane's model. Analyze the BHZ model and gain a comprehensive understanding of disorder effects in topological systems.

Syllabus

Introduction
Precursors
Graphene binding Hamiltonian
Topological phase transitions
Spinless model
Experiments
Other examples
Mechanisms
Spin flip
No magnetic disorder
Strong disorder
Brillion zone
bismuthane
anneal
results
haldanes model
we disorder model
bhz model
summary
in a nutshell


Taught by

ICTP-SAIFR

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