A tiny cavity leads to a strong interaction between light and matter
https://www.sciencedaily.com/releases/2019/10/191021124515.htm
Quantum physics describes photons as light particles. Achieving an interaction between a single photon and a single atom is a huge challenge due to the tiny size of the atom. However, sending the photon past the atom several times by means of mirrors significantly increases the probability of an interaction.
In order to generate photons, the researchers use artificial atoms, known as quantum dots. These semiconductor structures consist of an accumulation of tens of thousands of atoms, but behave much like a single atom: when they are optically excited, their energy state changes and they emit a photon. "However, they have the technological advantage that they can be embedded in a semiconductor chip," says Dr. Daniel Najer, who conducted the experiment at the Department of Physics at the University of Basel.