Quantum Light-Matter Interactions
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We are primarily interested in solving, understanding, and controlling classical and quantum light-induced dynamical processes that take place in atoms, molecules, and nanoscale systems by developing theories, and implementing computational methods. Our research addresses emerging problems of spectroscopy, sensing, interferometry, and dynamics with high-frequency ultrashort laser pulses and entangled photon pairs. My current research involves the following topics:
Can machine learning (ML) be used to gain insight into light-matter interactions?
Plasmon-enhanced photocatalysis and spectroscopy
Nonlinear spectroscopy with classical and entangled light
Charge and energy transfer at metal-molecule interface
Quantum thermodynamics
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