We investigate the semiclassical electric-dipole-allowed interaction of a unidirectional plane-wave electric field with a homogeneously broadened two-level medium prepared in a coherent superposition of energy eigenstates. Atomic level pumping and the effects of phase matching the new polarization contributions are discussed. The slowly varying polarization is derived and applied to the problem of the propagation of a weak field. The polarization of the medium acquires a direct (field-independent) contribution due to the injected coherence. We find that the slowly varying envelope propagation equation retains the standard single-mode absorption coefficient but develops additional driving terms. Phase matching in both time and space is crucial for the injected coherence to couple to a field. The phase-matched case of weak-field propagation proves to be a linear superposition of two processes: the usual Beer’s law exponential decay (or growth) and a constant field supported by the medium. The injected coherence enables a weak electric field to persist in an absorbing medium.

• Received 29 March 1990

DOI:https://doi.org/10.1103/PhysRevA.42.1532