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Emergent Phenomena in Crystalline Multilayer Graphene

Offered By: Stanford Physics via YouTube

Tags

Condensed Matter Physics Courses Topology Courses Graphene Courses Quantum Phenomena Courses Electron Correlation Courses Two-dimensional Materials Courses Van der Waals Heterostructures Courses

Course Description

Overview

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Explore emergent quantum phenomena in crystalline multilayer graphene during this physics colloquium talk. Delve into the world of condensed matter physics, focusing on electron correlation and topology in conventional crystalline materials with flat electronic bands. Discover how moiré superlattices built on 2D materials have become a new platform for studying these phenomena. Learn about a family of synthetic quantum materials based on crystalline multilayer graphene, which combines flat-bands in highly ordered conventional crystalline materials with proximity effects enabled by 2D van der Waals heterostructures. Examine the rich spectrum of emergent phenomena observed in experiments, including correlated insulators, spin/valley-polarized metals, integer and fractional quantum anomalous Hall effects, and superconductivities. Consider the implications of these findings for topological quantum computation and gain insights into cutting-edge research in the field of physics.

Syllabus

Long Ju - "Emergent Phenomena in Crystalline Multilayer Graphene"


Taught by

Stanford Physics

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