Abstract
The impacts of an external driving field on the spontaneous emission from an excited two-level atom embedded in a double-band photonic crystal is investigated. In the upper level coupling, a dark line occurs, which stems from deductive quantum interference induced by the external driving field. The dark line appears with an additional peak when it is outside the band gap of the PBG reservoirs. The dark line cannot be seen when it falls into the band gap. In the case of lower level coupling, interference plays no role. The emission spectrum displays two incoherent modified Lorentzian lines that have two singularities in each side of the band gap in isotropic PBG reservoirs.
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