Interaction of transient temporally modulated laser radiation with simple atomic systems

We point out that the frequency‐selective nature of the light‐matter interaction can be utilized to effect the storage of a spectral image (Fourier transform) of a temporally structured light pulse in the absorption profile of an inhomogeneously broadened atomic ensemble, and that the stored information can be subsequently recalled in the form of a free‐induction‐decay signal. Applications of this process to optical data storage are discussed. We also consider the interaction of a phase‐controlled, amplitude‐grated, resonant laser field with the atoms in a collimated atomic beam. We describe experiments wherein suitably prepared atoms are placed in pure stationary‐states (dressed states) of the atom + laser‐field system, and note that atoms in pure dressed states should have interesting spectral and dynamical properties.