Polariton chemistry: controlling molecular dynamics with optical cavities
Molecular polaritons are the optical excitations which emerge when molecular transitions
interact strongly with confined electromagnetic fields. Increasing interest in the hybrid …
interact strongly with confined electromagnetic fields. Increasing interest in the hybrid …
Vibration-cavity polariton chemistry and dynamics
Molecular polaritons result from light-matter coupling between optical resonances and
molecular electronic or vibrational transitions. When the coupling is strong enough, new …
molecular electronic or vibrational transitions. When the coupling is strong enough, new …
Molecular polaritons for controlling chemistry with quantum optics
This is a tutorial-style introduction to the field of molecular polaritons. We describe the basic
physical principles and consequences of strong light–matter coupling common to molecular …
physical principles and consequences of strong light–matter coupling common to molecular …
Energy cascades in donor-acceptor exciton-polaritons observed by ultrafast two-dimensional white-light spectroscopy
Exciton-polaritons are hybrid states formed when molecular excitons are strongly coupled to
photons trapped in an optical cavity. These systems exhibit many interesting, but not fully …
photons trapped in an optical cavity. These systems exhibit many interesting, but not fully …
Polaritonic chemistry: Collective strong coupling implies strong local modification of chemical properties
A fundamental question in the field of polaritonic chemistry is whether collective coupling
implies local modifications of chemical properties scaling with the ensemble size. Here we …
implies local modifications of chemical properties scaling with the ensemble size. Here we …
Polariton localization and dispersion properties of disordered quantum emitters in multimode microcavities
Experiments have demonstrated that the strong light-matter coupling in polaritonic
microcavities significantly enhances transport. Motivated by these experiments, we have …
microcavities significantly enhances transport. Motivated by these experiments, we have …
Microcavity exciton polaritons at room temperature
The quest for realizing novel fundamental physical effects and practical applications in
ambient conditions has led to tremendous interest in microcavity exciton polaritons working …
ambient conditions has led to tremendous interest in microcavity exciton polaritons working …
Hybrid resonant organic–inorganic nanostructures for optoelectronic applications
The majority of modern commercial optoelectronic devices (such as LEDs, solar cells, and
nonlinear-optical devices) are built on the basis of traditional inorganic semiconductors …
nonlinear-optical devices) are built on the basis of traditional inorganic semiconductors …
Unusual dynamical properties of disordered polaritons in microcavities
The collective light-matter interaction in microcavities gives rise to the intriguing phenomena
of cavity-mediated transport that can potentially overcome the Anderson localization. Yet, an …
of cavity-mediated transport that can potentially overcome the Anderson localization. Yet, an …
Ultralong‐range energy transport in a disordered organic semiconductor at room temperature via coherent exciton‐polariton propagation
Amorphous molecular solids are inherently disordered, exhibiting strong exciton
localization. Optical microcavities containing such disordered excitonic materials have been …
localization. Optical microcavities containing such disordered excitonic materials have been …