Solution-processed cavity and slow-light quantum electrodynamics in near-infrared silicon photonic crystals

We demonstrate enhanced emission of solution-processed sparse lead sulfide quantum dots QDs coupled to confined as well as propagating modes in silicon photonic crystals at near-infrared communications wavelengths. In the cavity case, by using cold-cavity characterization using on-board waveguides or cross-polarization techniques, we show that the coupled QD lineshape is identical to the cold-cavity spectra. For the photonic crystal waveguides PhCWGs , we use transmission spectra for the PhCWG as well as three-dimensional finite difference time domain techniques to validate enhancements due to the propagating mode. The observation of room-temperature quantum electrodynamics using postfabrication QD integration techniques is promising for further studies. © 2009 American Institute of Physics. doi:10.1063/1.3238555