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Coherent multidimensional spectroscopy in polariton systems

Daniela Gallego-Valencia, Lars Mewes, Johannes Feist, José Luis Sanz‐Vicario

2024Physical review. A/Physical review, A14 citationsDOI

Abstract

The fast dynamics of molecular polaritonics is scrutinized theoretically through the implementation of two-dimensional spectroscopy protocols. We derive conceptually simple and computationally efficient formulas to calculate two-dimensional spectra for molecules, each of them modeled as a system of two electronic states including vibrational relaxation, immersed in an optical cavity, thus coupled to quantized radiation. Cavity photon losses and molecular relaxation are incorporated into the Hamiltonian dynamics to form an open quantum system that is solved through a master equation. In the collective case, the relaxation dynamics into dark states is revealed to be the crucial factor to explain the asymmetries in both the diagonal and cross peaks of two-dimensional spectra for long waiting times between excitation and detection, a feature shown by recent experiments. Our theoretical method provides a deeper insight in those processes that yield relevant signals in multidimensional molecular spectroscopy.

Topics & Concepts

SpectroscopyPolaritonCoherent spectroscopyComputer sciencePhysicsOpticsAstronomyCoherent anti-Stokes Raman spectroscopyRaman spectroscopyRaman scatteringStrong Light-Matter InteractionsSpectroscopy and Quantum Chemical StudiesQuantum Information and Cryptography
Coherent multidimensional spectroscopy in polariton systems | Litcius