When molecules are coupled to an optical cavity, new light–matter hybrid states, so-called
polaritons, are formed due to quantum light–matter interactions. With the experimental …

As pioneering experiments have shown, strong coupling between molecular vibrations and
light modes in an optical cavity can significantly alter molecular properties and even affect …

Interaction between light and molecular vibrations leads to hybrid light-matter states called
vibrational polaritons. Even though many intriguing phenomena have been predicted for …

The combination of micro-or nanofluidics and strong light–matter coupling has gained much
interest in the past decade, which has led to the development of advanced systems and …

We provide a simple and intuitive theory to explain how coupling a molecule to an optical
cavity can modify ground-state chemical reactivity by exploiting intrinsic quantum behaviors …

Optical antenna resonators enable control of light‐matter interactions on the nano‐scale via
electron–photon hybrid states in strong coupling. Specifically, mid‐infrared (MIR) nano …