Optical emission in periodic dielectrics
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We show rigorously that the coefficient for spontaneous emission of an atom placed in a dielectric is proportional to the local radiative density of states—that is only a part of the local density of the eigenmodes of the Maxwell equations. Spontaneous emission is inhibited if the atom is located at a position where this local radiative density is small, even if the total density of states is not vanishing. This radiative density of states can be obtained without having to perform a full quantum calculation of the radiation-matter system. We demonstrate this principle by solving numerically a scalar model for a dielectric that consists of a lattice of resonating dipoles.
[1] C. Soukoulis. Photonic Band Gap Materials , 1996 .
[2] Deutsch,et al. Bragg scattering from atoms in optical lattices. , 1995, Physical review letters.
[3] Murray Sargent,et al. Elements of Quantum Optics , 1991 .
[4] Walter A. Harrison,et al. Solid state theory , 1970 .
[5] Wineland,et al. Long-Range Order in Laser-Cooled, Atomic-Ion Wigner Crystals Observed by Bragg Scattering. , 1995, Physical Review Letters.