Spontaneous emission from a three-level atom embedded in an anisotropic photonic crystal

The spontaneous emission properties of a K type atom embedded in a three-dimensional anisotropic photonic crystal are investigated. Only one of the two atomic transition frequencies is considered near the photonic band edge. The atomic decay properties such as the time-evolution of the excited-state

We introduce a modified density of modes to investigate the spontaneous emission spectrum of a threelevel V-type atom in photonic crystal using Laplace transform. The atom's steady state behavior of spontaneous emission is treated for different locations of the upper band-edge frequency. Furthermore

In a three-level atom embedded in a photonic band gap structure, the spontaneous emission is studied both with and without rotating-wave approximation. The virtual-photon-localized field is found, which causes a greater population of the atom trapped in its upper states.