Abstract
The second lesson described the early years of cavity quantum electrodynamics with Rydberg atoms, from experiments in microwave spectroscopy of the Rydberg states of alkali atoms in the 1970s, to the first studies in strong atom-photon coupling in the early 1990s. During this period, the main focus was on modifying the radiative properties of atoms in a space confined by reflective walls. Methods for manipulating and studying atoms interacting with isolated photons in cavities, which later led to quantum information experiments and tests of measurement theory and decoherence, were developed during this period.
The first experiments carried out at ENS after the chairholder's return from Stanford involved the spectroscopic study of the Rydberg atoms of alkali atoms. The lesson recalled the main properties of these highly excited atoms with very large spatial dimensions, their preparation by step laser excitation and their detection by selective ionization using an electric field. The originality of the ENS experiments compared with the many other studies carried out at the same time in other laboratories was to couple these atoms to microwave fields to study in detail the transitions between neighboring Rydberg levels. These studies made it possible to establish a detailed map of these levels and to precisely measure their quantum defects, parameters describing the perturbing effect of the atom's core on its valence electron carried in a Rydberg orbit.