Coherent control of spontaneous emission and radiation property in an anisotropic PBG

The spontaneous emission and radiation properties of a three-level atom driven by a phase-sensitive laser field in the anisotropic photonic crystal have been investigated. Due to the modified density in PC and the dynamical coherence induced by the coupling field, the population becomes oscillated and a fractionalized steady-state inversion appears in the two upper levels under certain initial conditions. And the spontaneous spectra are influenced not only by the photonic band edge but also by the phase and the detuning of the coherent field. In addition, the phase dependent quantum interference leads to fluorescence quenching and enhancement in the spectra. Meanwhile, the radiation fields are greatly dependent on the intensity of the coherent field and the relative position of the resonant frequency to the band edge. Different kinds of fields within the regions we plotted are clearly calculated. When the resonant frequency moves from deep in the band gap to the band, localized field, diffusion field and propagating field regularly vary and the energy of them is exchanged to each other.