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Unconventional Quantum Criticality in Monolayer WTe2

Offered By: Institute for Advanced Study via YouTube

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Condensed Matter Physics Courses Superconductivity Courses Quantum Criticality Courses Two-dimensional Materials Courses

Course Description

Overview

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Explore the fascinating world of unconventional quantum criticality in monolayer WTe2 through this comprehensive lecture delivered by Sanfeng Wu from Princeton University. As part of the 2024 Princeton Summer School on Condensed Matter Physics (PSSCMP), this talk delves into the intriguing properties of two-dimensional materials and their quantum behavior. Gain insights into the unique characteristics of monolayer tungsten ditelluride (WTe2) and its role in advancing our understanding of quantum critical phenomena. Learn about the latest research findings, experimental techniques, and theoretical frameworks used to study this material's unconventional quantum critical state. Discover how this research contributes to the broader field of condensed matter physics and its potential implications for future technological applications.

Syllabus

Unconventional quantum criticality in monolayer WTe2 - Sanfeng Wu


Taught by

Institute for Advanced Study

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