Abstract
The attempt to control spontaneous emission via modifications of the photonic environment using dielectric or plasmonic nanostructures has been a very active field of research for several decades. In particular the prospect of inhibiting fluorescence altogether by means of a photonic band gap has attracted great interest. In a recent paper, we have fully characterized the full non-Markovian radiation dynamics of a microwave spin system in a woodpile photonic crystal with a complete band gap near 14 GHz and found excellent agreement with ab-initio numerics. Here, we report on numerical details of this work.
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