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Ab Initio Quantum Chemistry Approaches to Nonequilibrium Interactions in Molecules

Offered By: Institute for Pure & Applied Mathematics (IPAM) via YouTube

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Quantum Chemistry Courses Materials Science Courses Perturbation Theory Courses

Course Description

Overview

Explore an in-depth lecture on ab initio quantum chemistry approaches to nonequilibrium interactions in molecules and materials. Delve into advanced topics including correlated photon-molecule interactions, molecular strong coupling with ab initio QED, and quasiparticle descriptions of non-perturbative interactions. Examine ground and excited-state energies of mixed photon-quantum matter systems, modification of intermolecular interactions in cavities, and polaritonics in the presence of cavity loss. Investigate master equation approaches to open quantum system dynamics, correlated light-matter interactions, and the control of magnon-polaritons in cuprate parent compounds. Gain insights into cavity control, nonequilibrium dynamics, and quantum materials through this comprehensive presentation by Harvard University's Prineha Narang at IPAM's Advancing Quantum Mechanics with Mathematics and Statistics Tutorials.

Syllabus

A theory approach to predicting and controlling quantum chemical systems
Correlated photon-molecule interactions: A quantum chemistry approach
Molecular strong coupling with ab initio QED
Quasiparticle Description of Non-Perturbative Interactions: Photonic Quasiparticles
Ground and excited-state energies of the mixed "photon- quantum matter" system
Modification of H, intermolecular interactions: perturbation theory goes a long way!
Intermolecular interaction length scales inside cavities - condensed phases
New intermolecular interaction length scales inside cavities - polaritonic chemistry
Polaritonics in the presence of cavity loss: Phenomenological approach
Master equations for Markovian dynamics
Master equation approaches to open quantum system dynamics: Simple example J-C model
Correlated light-matter interactions: polaritons, probes, and emergent states of matter
Dispersions of monolayer perovskites and hBN are remarkably similar
Controlling magnon-polaritons in cuprate parent compounds via an IR-active phonon
Cavity control, nonequilibrium dynamics and quantum materials
Vibrational control and nonequilibrium dynamics


Taught by

Institute for Pure & Applied Mathematics (IPAM)

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