Strongly enhanced quantum emitterfluorescence from a single nano-de-focusing waveguide

Enhancing quantum emitter fluorescence by tailoring its electromagnetic environment on the nanoscale is key for realizing brighter light sources with associated control over their modal coupling behaviour. In this context, the Purcell effect [1] constitutes an important mechanism allowing to greatly enhance fluorescence rate of emitters when coupled to electromagnetic cavity modes. However, highly resonant structures such as dielectric cavities are inherently bandwidth limited, strongly restricting their use to one specific transition or optical state. Meanwhile, metallic structures can provide extremely high enhancement factors over a wide frequency range due to small modal volumes provided by plasmonic sub-wavelength confinement, even off-resonance. One important feature, which has remained elusive in this context, is the efficient coupling and guided extraction of enhanced quantum emission on and from the nanoscale.

This work presents a hybrid plasmonic waveguide platform [2,3] which enables efficient de-focusing of strongly Purcell enhanced quantum emitter fluorescence by coupling emitters to a highly confined non-resonant plasmonic waveguide mode. Accessing technologically relevant wavelengths, we demonstrate the working principle and efficient operation of our platform throughout the entire optical communications C-band using erbium ion emitters. 

[1]        E. M. Purcell, H. C. Torrey, and R. V. Pound, Phys. Rev. 69, 37 (1946).

[2]        N. A. Güsken, M. P. Nielsen, N. B. Nguyen, S. A. Maier, and R. F. Oulton, Opt. Express 26, 30634 (2018).

[3]        R. F. Oulton, V. J. Sorger, D. A. Genov, D. F. P. Pile, and X. Zhang, Nat. Photonics 2, 496 (2008).