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Phonon Coupling and Mechanical Stable Equilibrium Through Quantum Fluctuations - Haokun Li

Offered By: Kavli Institute for Theoretical Physics via YouTube

Tags

Quantum Fluctuations Courses Engineering Courses Chemistry Courses Physics Courses Electromagnetic Fields Courses 2D Materials Courses Non-reciprocal Materials Courses Quantum Friction Courses

Course Description

Overview

Explore the intricacies of phonon coupling and mechanical stable equilibrium through quantum fluctuations in this 43-minute conference talk by Haokun Li from Berkeley. Recorded as part of the Quantum and Thermal Electrodynamic Fluctuations in the Presence of Matter conference at the Kavli Institute for Theoretical Physics, delve into the fascinating world of classical and quantum fluctuating electromagnetic fields and their impact on various phenomena in physics, chemistry, and engineering. Examine topics such as Casimir interactions, quantum field fluctuations in heat transfer, and the implications of 2D topological and non-reciprocal materials. Gain insights into ongoing research challenges, including the detection of quantum friction and discrepancies between experimental and theoretical results. Understand how unraveling these puzzles can lead to profound impacts on fundamental science and novel material applications.

Syllabus

Phonon Coupling & Mechanical Stable Equilibrium through Quantum Fluctuations ▸ Haokun Li (Berkeley)


Taught by

Kavli Institute for Theoretical Physics

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