Spontaneous emission dynamics of Eu 3+ ions coupled to hyperbolic metamaterials
Abstract
Sub-wavelength nanostructured systems with tunable electromagnetic properties, such as hyperbolic metamaterials (HMMs), provide a useful platform to tailor spontaneous emission processes. Here, we investigate a system comprising Eu 3+(NO3)36H2O nanocrystals on an HMM structure featuring a hexagonal array of Ag-nanowires in a porous Al2O3 matrix. The HMM-coupled Eu 3+ ions exhibit up to a 2.4-fold increase of their decay rate, accompanied by an enhancement of the emission rate of the 5D0→ 7F2 transition. Using finite-difference time-domain modeling, we corroborate these observations with the increase in the photonic density of states seen by the Eu 3+ ions in the proximity of the HMM. Our results indicate HMMs can serve as a valuable tool to control the emission from weak transitions, and hence hint at a route towards more practical applications of rare-earth ions in nanoscale optoelectronics and quantum devices.
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